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National Guideline Alliance (UK). Cystic Fibrosis: Diagnosis and management. London: National Institute for Health and Care Excellence (NICE); 2017 Oct 25. (NICE Guideline, No. 78.)

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Cystic Fibrosis: Diagnosis and management.

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10Other monitoring, assessment and management

10.1. Nutritional Interventions

Review question: What is the clinical and cost effectiveness of nutritional interventions in people with cystic fibrosis?

10.1.1. Introduction

People with cystic fibrosis are at risk of poor nutritional status which is a strong predictor of morbidity and mortality. Nutritional deficiency and malnutrition in people with cystic fibrosis is affected by both pancreatic and clinical status. Pancreatic insufficiency results in nutrient and fat soluble vitamin malabsorption, added to by the increased energy and nutrient requirement associated with chronic lung infections. Additionally, growth spurts in childhood (particularly in the first year and at adolescence) increase nutritional requirements where there is an additional risk in cystic fibrosis. Optimising nutritional status is, therefore, an important part of routine care for all people with cystic fibrosis. Early detection and monitoring of nutritional decline is necessary to empower potentially beneficial treatments and interventions. The strategies commonly used include dietary advice, oral supplements, enteral tube feeding, the use of appetite stimulants and behavioural interventions.

10.1.2. Description of clinical evidence

The aim of this review was to determine the clinical and cost-effectiveness of nutritional interventions for people with cystic fibrosis.

The interventions reviewed were:

  • oral supplementary prescribed feeds
  • enteral tube feeding
  • appetite stimulants (cyproheptadine, megace)
  • dietary advice, or educational interventions
  • psychological and behavioural interventions

Interventions were considered “behavioural” rather than educational if they were facilitated by psychologists, psychotherapists, or psychological therapists in training.

Systematic reviews of RCTs and RCTs were prioritised. Systematic reviews were assessed for inclusion against the protocol, and if relevant, their quality was assessed using AMSTAR. High-quality systematic reviews were included in our review, and where possible, data and quality assessment was taken directly from the review. Individual studies were also retrieved for completeness and accuracy, and were checked for additional outcomes of interest. Low-quality systematic reviews were excluded from the review, but the list of included studies was checked to identify relevant trials.

Cross-over RCTs, RCTs with less than 10 participants, quasi-randomised trials or studies published before or during 1997 were excluded unless these studies were included in 1 of the 4 Cochrane systematic reviews that were included in this review.

Given that no evidence was found for enteral tube feeding or quality of life (a critical outcome) in the RCTs, cohort studies were assessed for inclusion and data were reported from these studies only in relation to this intervention or this critical outcome not covered by the RCTs.

For full details see review protocol in Appendix D.

Five Cochrane reviews were included in the review:

  • Chinuck (2014) evaluated the effectiveness of appetite stimulants compared to placebo; 3 RCTs were included in this review (Eubanks 2002, Homnick 2004, Marchand 2000)
  • Goldbeck (2014) evaluated the effectiveness of behavioural interventions, assessing 2 comparisons: behavioural intervention versus wait list control; and behavioural management training plus nutritional intervention versus nutritional intervention alone; 4 RCTs were included in this review (Stark 1996, Stark 2009, Powers 2003)
  • Morton (2015) evaluated the effectiveness of supplemental enteral tube feeding for 1 month or longer compared to no specific intervention; no studies were eligible for inclusion in the review
  • Savage (2014) evaluated the effectiveness of nutrition education compared to standard treatment; 1 RCT was included in this review (Watson 2008)
  • Smyth (2014) evaluated the effectiveness of oral calorie supplementation compared to additional nutritional advice or no intervention; 2 RCTs (Hanning 1993, Poustie 2006) and 1 quasi-randomised trial (Kalnins 2005) were included in this review.

In addition, 1 RCT (Powers 2015) was included. It evaluated a behavioural intervention compared to an educational intervention. Finally, 2 cohort studies (Bradley 2012, White 2013) were included. These studies evaluated the effectiveness of enteral tube feeding.

The size of the RCTs or cohort studies ranged from 9 to 102 participants. One study included infants and children (Powers 2003), 3 studies included children (Marchand 2000, Stark 1996, Powers 2015), 3 studies included children and young people (Hanning 1993, Poustie 2016, Stark 2009), 4 studies included children, young people and adults (Bradley 2012, Eubanks 2002, Homnick 2004, Kalnins 2005), 1 study included people older than 16 (Watson 2008) and 1 study included adults (White 2013).

Four studies (Hanning 1993, Homnick 2004, Stark 1996, Watson 2008) were considered indirect in terms of the population because no inclusion criteria related to underweight were specified, therefore the study population was unlikely to be representative of those who would receive the interventions in clinical practice.

Nine studies (Bradley 2012, Eubanks 2002, Kalnins 2005, Marchand 2000, Poustie 2006, Powers 2003, Stark 2009, Powers 2015, White 2013) were considered direct in terms of the population because the authors specified some inclusion criteria which related to either underweight, or reduced weight gain or body mass index (BMI), or pancreatic insufficiency, or need for nutritional supplementation.

Three studies were conducted in the UK (Poustie 2016, Watson 2008, White 2013), 8 in the USA (Bradley 2012, Eubanks 2002, Homnick 2004, Marchand 2000, Powers 2003, Powers 2015, Stark 1996, Stark 2009) and 2 in Canada (Hanning 1993, Kalnins 2005).

A summary of the studies included in this review is presented in Table 142. See study selection flow chart in Appendix F, study evidence tables in Appendix G, list of excluded studies in Appendix H, forest plots in Appendix I, and full GRADE profiles in Appendix J.

Table 142. Summary of included studies.

Table 142

Summary of included studies.

10.1.3. Summary of included studies

A summary of the studies that were included in this review are presented in Table 142.

10.1.4. Clinical evidence profile

The summary clinical evidence profiles for this review question (nutrition interventions in people with CF) are presented in Table 143 to Table 150.

Table 143. Summary clinical evidence profile: Comparison 1.1 Oral calorie supplementation versus usual care.

Table 143

Summary clinical evidence profile: Comparison 1.1 Oral calorie supplementation versus usual care.

Table 150. Summary clinical evidence profile: Comparison 5.3. Behavioural management training + educational intervention versus educational intervention alone.

Table 150

Summary clinical evidence profile: Comparison 5.3. Behavioural management training + educational intervention versus educational intervention alone.

Table 144. Summary clinical evidence profile: Comparison 1.2 Oral calorie supplementation versus nutrition advice.

Table 144

Summary clinical evidence profile: Comparison 1.2 Oral calorie supplementation versus nutrition advice.

Table 145. Summary clinical evidence profile: Comparison 2. Enteral tube feeding versus usual care.

Table 145

Summary clinical evidence profile: Comparison 2. Enteral tube feeding versus usual care.

Table 146. Summary clinical evidence profile: Comparison 3. Appetite stimulants versus placebo.

Table 146

Summary clinical evidence profile: Comparison 3. Appetite stimulants versus placebo.

Table 147. Summary clinical evidence profile: Comparison 4. Nutrition education versus usual care.

Table 147

Summary clinical evidence profile: Comparison 4. Nutrition education versus usual care.

Table 148. Summary clinical evidence profile: Comparison 5.1 Behavioural intervention versus usual care.

Table 148

Summary clinical evidence profile: Comparison 5.1 Behavioural intervention versus usual care.

Table 149. Summary clinical evidence profile: Comparison 5.2 Behavioural intervention versus education and attention control treatment.

Table 149

Summary clinical evidence profile: Comparison 5.2 Behavioural intervention versus education and attention control treatment.

10.1.5. Economic evidence

No economic evaluations of nutritional interventions were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. To aid consideration of cost-effectiveness relevant resource and cost use data are presented in Appendix K.

10.1.6. Evidence statements

10.1.6.1. Oral calorie supplementation

10.1.6.1.1. Comparison 1.1. Oral calorie supplementation versus usual care
Indices of nutrition and growth: weight

Moderate quality evidence from 1 RCT with 99 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in weight (measured as change in kg and change in weight centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 3 months follow-up.

Similarly, low quality evidence from 2 RCTs with 117 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in weight (measured as change in kg) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Similarly, moderate quality evidence from 1 RCT with 101 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in weight (measured as change in weight centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Very low quality evidence from 1 RCT with 16 children and young people with cystic fibrosis 7 to 15 years old showed no clinically significant difference in weight (measured as change in percentage expected for age and height) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Likewise, moderate quality evidence from 1 RCT with 102 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in weight (measured as change in kg and change in weight centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 1 year follow-up.

Indices of nutrition and growth: BMI

Moderate quality evidence from 1 RCT with 99 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in BMI (measured as change in kg/m2 and as change in BMI centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 3 months follow-up.

Similarly, moderate quality evidence from 1 RCT with 101 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in BMI (measured as change in kg/m2 and as change in BMI centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Likewise, moderate quality evidence from 1 RCT with 102 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in BMI (measured as change in kg/m2 and as change in BMI centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 1 year follow-up.

Indices of nutrition and growth: height

High to moderate quality evidence from 1 RCT with 99 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in height (measured as change in cm and as change in height centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 3 months follow-up.

Likewise, high quality evidence from 1 RCT with 101 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in height (measured as change in cm and change in height centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Very low quality evidence from 1 RCT with 16 children and young people with cystic fibrosis 7 to 15 years old showed no clinically significant difference in height (measured as change in percentage expected for age) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

High to moderate quality evidence from 1 RCT with 102 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant difference in height (measured as change in cm and change in height centile) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 1 year follow-up.

Lung function: FEV1

Moderate quality evidence from 1 RCT with 69 children and young people with cystic fibrosis 2 to 15 years old showed a clinically significant decrease in lung function (measured as change in FEV1 % predicted) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 3 months follow-up.

However, low quality evidence from 2 RCTs with 86 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant change in lung function (measured as change in FEV1 % predicted) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 6 months follow-up.

Similarly, moderate quality evidence from 1 RCT with 70 children and young people with cystic fibrosis 2 to 15 years old showed no clinically significant change in lung function (measured as change in FEV1 % predicted) in the group of participants receiving oral calorie supplementation compared to the participants in the control group receiving usual care at 1 year follow-up.

Quality of life

No evidence was found for this critical outcome.

Pulmonary exacerbations

No evidence was found for this important outcome.

Adverse effects

No evidence was found for this important outcome.

Patient or carer satisfaction

No evidence was found for this important outcome.

10.1.6.1.2. Comparison 1.2. Oral calorie supplementation versus nutritional advice
Indices of nutrition and growth: weight

Very low quality evidence from 1 quasi-RCT with 13 people with CF >10 years old showed no clinically significant difference in weight (measured as change in kg, change in Z-score, change in percentage weight for height, change in percentage of ideal body weight) between the group of participants receiving oral calorie supplementation for 3 months and the participants receiving nutritional advice at 3 months follow-up.

Very low quality evidence from 1 quasi-RCT with 13 people with CF >10 years old showed no clinically significant difference in weight (measured as change in z score and change in percentage of ideal body weight) between the group of participants receiving oral calorie supplementation for 3 months and the participants receiving nutritional advice at 6 months follow-up.

Indices of nutrition and growth: height

Very low quality evidence from 1 quasi-RCT with 13 people with cystic fibrosis >10 years old showed no clinically significant difference in height (measured as change in cm and change in Z-score) between the group of participants receiving oral calorie supplementation for 3 months and the participants receiving nutritional advice at 3 months follow-up.

Very low quality evidence from 1 quasi-RCT with 13 people with cystic fibrosis >10 years old showed no clinically significant difference in height (measured as change in Z-score) between the group of participants receiving oral calorie supplementation for 3 months and the participants receiving nutritional advice at 6 months follow-up.

Lung function: FEV1

Very low quality evidence from 1 quasi-RCT with 13 people with cystic fibrosis >10 years old showed a clinically significant decrease in lung function (measured as change in FEV1 % predicted) in the group of participants receiving oral calorie supplementation for 3 months compared to the participants receiving nutritional advice at 3 and at 6 months follow-up.

Quality of life

No evidence was found for this critical outcome.

Pulmonary exacerbations

No evidence was found for this important outcome.

Adverse effects

No evidence was found for this important outcome.

Patient or carer satisfaction

No evidence was found for this important outcome.

10.1.6.2. Enteral tube feeding

10.1.6.2.1. Comparison 2. Enteral tube feeding versus usual care
Indices of nutrition and growth: weight

Very low quality evidence from 1 cohort study with 21 adults with cystic fibrosis showed a clinically significant improvement in weight (measured as change in kg) in the group receiving enteral tube feeding compared to those who received usual care at 1, 2 and 3 years follow-up.

Very low quality evidence from 1 cohort study with 40 people with cystic fibrosis aged 2 to 20 years showed a clinically significant improvement in weight (measured as change in z score) in the group receiving gastrostomy compared to those who received usual care at 6 months and 1 year follow-up.

Indices of nutrition and growth: height

Very low quality evidence from 1 cohort study with 40 people with cystic fibrosis aged 2 to 20 years showed no clinically significant increase in height (measured as change in z score) between the group receiving gastrostomy and those who received usual care at 6 months and 1 year follow-up.

Indices of nutrition and growth: BMI

Very low quality evidence from 1 cohort study with 21 adults with cystic fibrosis showed a clinically significant improvement in BMI (measured as change in kg/m2) in the group receiving enteral tube feeding compared to those who received usual care at 1, 2 and 3 years follow-up.

Very low quality evidence from 1 cohort study with 40 people with cystic fibrosis aged 2 to 20 years showed a clinically significant improvement in BMI (measured as change in z score) in the group receiving gastrostomy compared to those who received usual care at 6 months and 1 year follow-up.

Lung function: FEV1

Very low quality evidence from 1 cohort study with 21 adults with cystic fibrosis showed no clinically significant improvement in lung function (measured as change in FEV1 % predicted) between the group receiving enteral tube feeding and those who received usual care at 1, 2 and 3 years follow-up.

Very low quality evidence from 1 cohort study with 27 people with cystic fibrosis aged 2 to 20 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group receiving gastrostomy and those who received usual care at 6 months and 1 year follow-up.

Quality of life

No evidence was found for this critical outcome.

Days on IV treatment (proxy outcome for pulmonary exacerbations)

Very low quality evidence from 1 cohort study with 21 adults with cystic fibrosis showed no clinically significant improvement in IV treatment (measured as change in number of days of treatment) between the group receiving enteral tube feeding and those who received usual care at 1 and 3 years follow-up. However, the same evidence found a clinically significant increase in IV treatment (measured as change in number of days of treatment) in the group receiving enteral tube feeding compared to those who received usual care at 2 years follow-up.

Adverse effects

No evidence was found for this important outcome.

Patient or carer satisfaction

No evidence was found for this important outcome.

10.1.6.3. Appetite stimulants

10.1.6.3.1. Comparison 3. Appetite stimulants versus placebo
Indices of nutrition and growth: weight

Low quality evidence from 2 RCTs with 33 people with cystic fibrosis aged ≥5 years showed a clinically significant difference in weight (measured as change in kg) between the group of participants receiving an appetite stimulant (megestrol acetate or cyproheptadine hydrochloride) and the group receiving placebo at 3 months follow-up.

Low quality evidence from 3 RCTs with 40 people with cystic fibrosis aged ≥21 months showed a clinically significant improvement in weight (measured as change in weight z score) in the group of participants receiving an appetite stimulant (megestrol acetate or cyproheptadine hydrochloride) as opposed to the group receiving placebo at 3 months follow-up.

Very low quality evidence from 1 RCT with 16 people with cystic fibrosis aged ≥5 years showed a clinically significant improvement in weight (measured as change in % ideal body weight) in the group of participants receiving an appetite stimulant (cyproheptadine hydrochloride) compared to the group receiving placebo at 3 months follow-up.

Low quality evidence from 1 RCT with 17 people with cystic fibrosis older than 6 years showed a clinically significant improvement in weight (measured as change in kg and as change in weight z score) in the group of participants receiving an appetite stimulant (megestrol acetate) as opposed to the group receiving placebo at 6 months follow-up.

Indices of nutrition and growth: height

Very low quality evidence from 1 RCT with 16 people with cystic fibrosis aged ≥5 years showed no clinically significant difference in height (measured as change in cm) between the group of participants receiving an appetite stimulant (cyproheptadine hydrochloride) and the group receiving placebo at 3 months follow-up.

Indices of nutrition and growth: BMI

Very low quality evidence from 1 RCT with 16 people with cystic fibrosis aged ≥5 years showed no clinically significant difference in BMI (measured as change in kg/m2) between the group of participants receiving an appetite stimulant (cyproheptadine hydrochloride) and the group receiving placebo at 3 months follow-up.

However, very low quality evidence from 1 RCT with 16 people with cystic fibrosis aged ≥5 years showed a clinically significant improvement in BMI (measured as change in percentile) in the group of participants receiving an appetite stimulant (cyproheptadine hydrochloride) compared to the group receiving placebo at 3 months follow-up.

Lung function: FEV1

Very low quality evidence from 1 RCT with 17 people with cystic fibrosis older than 6 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving an appetite stimulant (megestrol acetate) and the group receiving placebo at 3 and 6 months follow-up.

Pulmonary exacerbations

Very low quality evidence from 1 RCT with 12 children with cystic fibrosis aged 21 months to 10.4 years showed no clinically significant difference in the number of pulmonary exacerbations between the group of participants receiving an appetite stimulant (megestrol acetate) and the group receiving placebo at 3 months follow-up.

Adverse effects

Very low quality evidence from 1 RCT with 17 people with cystic fibrosis older than 6 years showed no clinically significant difference in the number of constipation events between the group of participants receiving an appetite stimulant (megestrol acetate) and the group receiving placebo at 6 months follow-up.

Low quality evidence from 1 RCT with 12 children with cystic fibrosis aged 21 months to 10.4 years showed that fasting blood glucose levels remained unchanged in both the group of participants receiving an appetite stimulant (megestrol acetate) and the group receiving placebo at 3 months follow-up. Imprecision and clinical significance could not be calculated.

Low quality evidence from 1 RCT with 12 children aged 21 months to 10.4 years with cystic fibrosis showed that all participants in the group receiving an appetite stimulant (megestrol acetate) had normal cortisol levels at baseline; at 3 months follow-up 4 out of the 6 participants in this same group had morning cortisol levels decreased to <0.6 mcg/dl. The values for the control group were not reported. Imprecision and clinical significance could not be calculated.

Very low quality evidence from 1 RCT with 17 people with cystic fibrosis older than 6 years showed no clinically significant difference in the number of people with decreased morning cortisol levels <30nmol/L between the group of participants receiving an appetite stimulant (megestrol acetate) and the group receiving placebo at 6 months follow-up. The study described that 7 out of 10 people receiving an appetite stimulant had decreased morning cortisol levels <30nmol/L at 6 months follow-up, however after completing a 1-month-long wean from the appetite stimulant, levels increased to 270 +-6.9 nmol/L.

Quality of life

No evidence was found for this critical outcome.

Patient or carer satisfaction

No evidence was found for this important outcome.

10.1.6.4. Nutrition education/dietary advice

10.1.6.4.1. Comparison 4. Nutrition education versus standard treatment
Indices of nutrition and growth: weight

Low to very low quality evidence from 1 RCT with 48 people with cystic fibrosis older than 16 years showed no clinically significant different in weight (measured as change in kg) between the group of participants receiving a nutrition education intervention for 10 weeks and those who received usual care at 6 and 12 months follow-up.

Lung function: FEV1

Very low quality evidence from 1 RCT with 48 people with cystic fibrosis older than 16 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving a nutrition education intervention for 10 weeks and those who received usual care at 6 and 12 months follow-up.

Quality of life

Low quality evidence from 1 RCT with 48 people with cystic fibrosis older than 16 years showed the following differences in health-related quality of life measured with the CF-QOL questionnaire: the control group scored significantly higher in physical functioning than the intervention group at 6 months (p-value=0.05) and the control group scored significantly higher in concerns for the future (meaning it had less concerns) than the intervention group at 12 months follow-up. This outcome was reported narratively only and imprecision could not be calculated.

Time to next exacerbation

No evidence was found for this important outcome

Adverse effects

No evidence was found for this important outcome

Patient and carer satisfaction

No evidence was found for this important outcome

10.1.6.5. Psychological and behavioural interventions

10.1.6.5.1. Comparison 5.1 Behavioural intervention versus usual care
Indices of nutrition and growth: weight

Very low quality evidence from 1 RCT with 9 children with cystic fibrosis aged 5 to 10 years showed no clinically significant difference in weight (measured as change in kg and change in z score) between the group of participants receiving a group behavioural intervention and those who received usual care at 6 week follow-up.

Indices of nutrition and growth: height

Very low quality evidence from 1 RCT with 9 children with cystic fibrosis aged 5 to 10 years showed no clinically significant difference in height (measured as change in cm) between the group of participants receiving a group behavioural intervention and those who received usual care at 6 week follow-up.

Lung function: FEV1

Very low quality evidence from 1 RCT with 9 children with cystic fibrosis aged 5 to 10 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving a group behavioural intervention and those who received usual care at 6 week follow-up.

Quality of life

No evidence was found for this critical outcome

Time to next exacerbation

No evidence was found for this important outcome

Adverse effects

No evidence was found for this important outcome

Patient and carer satisfaction

No evidence was found for this important outcome

10.1.6.5.2. Comparison 5.2. Behavioural intervention versus education and attention control treatment
Indices of nutrition and growth: weight

Moderate to high quality evidence from 1 RCT with 78 children with cystic fibrosis aged 2 to 6 years showed no clinically significant difference in weight (measured as change in z score) between the group of participants receiving a behavioural intervention and those who received an education and attention control treatment at 6 and 18 months follow-up.

Indices of nutrition and growth: height

Moderate quality evidence from 1 RCT with 78 children with cystic fibrosis aged 2 to 6 years showed no clinically significant difference in height (measured as change in z score) between the group of participants receiving a behavioural intervention and those who received an education and attention control treatment at 18 months follow-up.

Lung function: FEV1

No evidence was found for this critical outcome

Quality of life

No evidence was found for this critical outcome

Time to next exacerbation

No evidence was found for this important outcome

Adverse effects

Moderate quality evidence from 1 RCT with 78 children with cystic fibrosis aged 2 to 6 years showed a clinically significant higher number of adverse effects to the digestive system in the group of participants receiving a behavioural intervention compared to those who received an education and attention control treatment at 6 months follow-up.

Patient and carer satisfaction

No evidence was found for this important outcome

10.1.6.5.3. Comparison 5.3. Behavioural management training + educational intervention versus educational intervention alone
Indices of nutrition and growth: weight

Moderate quality evidence from 1 RCT with 67 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in weight (measured as change in kg) between the group receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 months follow-up.

Very low quality evidence from 1 RCT with 8 infants and children less than 3 years old with cystic fibrosis showed no clinically significant difference in weight (measured as change in kg, as change in % ideal body weight at as change in % weight for age) between the group receiving a combination of a behavioural and educational intervention for 1 year and those who received the educational intervention alone for 1 year at 1 year follow-up.

Moderate quality evidence from 1 RCT with 59 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in weight (measured as change in kg) between the group receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 years follow-up.

Indices of nutrition and growth: BMI

Moderate quality evidence from 1 RCT with 67 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in BMI (measured as change in z score) between the group receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 months follow-up.

Moderate quality evidence from 1 RCT with 59 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in BMI (measured as change in z score) between the group receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 years follow-up.

Indices of nutrition and growth: height

Very low quality evidence from 1 RCT with 7 infants and children less than 3 years old with cystic fibrosis showed no clinically significant difference in height (measured as change in cm) between the group receiving a combination of a behavioural and educational intervention for 1 year and those who received the educational intervention alone for 1 year at 1 year follow-up.

High to moderate quality evidence from 1 RCT with 59 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in height (measured as change in cm and change in z score) between the group receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 years follow-up.

Lung function: FEV1

Low quality evidence from 1 RCT with 28 children and young people with cystic fibrosis aged 4 to 12 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving a combination of a behavioural and educational intervention for 2 months and those who received the educational intervention alone for 2 months at 2 years follow-up.

Quality of life

No evidence was found for this critical outcome

Time to next exacerbation

No evidence was found for this important outcome

Adverse effects

No evidence was found for this important outcome

Patient and carer satisfaction

Moderate quality evidence from 1 RCT with 67 children and young people with cystic fibrosis aged 4 to 12 years showed that parents in both groups (the group receiving a combination of a behavioural and educational intervention for 2 months and the group receiving the educational intervention only for 2 months) reported high ratings of satisfaction with treatment (>6 in a 7 point scale) at 2 months follow-up. The outcome was reported narratively only and the imprecision could not be assessed.

10.1.6.6. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.1.7. Evidence to recommendations

10.1.7.1. Relative value placed on the outcomes considered

The aim of this review was to determine the clinical and cost effectiveness of nutritional interventions in improving health outcomes for people with cystic fibrosis.

The committee chose change in weight, height, body mass index (BMI), z score or other indices of nutrition or growth, lung function (FEV1) and quality of life as critical outcomes for decision making. Changes to body composition detected by anthropometric measures, pulmonary exacerbations, patient and parent or carer satisfaction and adverse effects (including diarrhoea, reduced appetite, abdominal bloating and episodes of distal intestinal obstruction syndrome) were rated as important. For appetite stimulants, the following adverse effects were also rated as important outcomes high blood glucose and adrenal insufficiency.

10.1.7.2. Consideration of clinical benefits and harms

People with cystic fibrosis often suffer from undernutrition due to faecal fat loss, increased energy requirements caused by chronic infections and malabsorption due to pancreatic insufficiency. It is well established that nutrition is important for lung function and overall health, therefore, different nutritional interventions to improve the nutritional status and growth of people with cystic fibrosis should be considered. Because nutrition is such an important component of overall health and a considerable problem among people with cystic fibrosis, the committee agreed that dietitians should be an integral part of the multidisciplinary team caring for the person with cystic fibrosis and review the patient regularly. This should be from an individualised basis considering a myriad of factors, including current diet, salt and water intake, bowel habit in relation to pancreatic enzyme use as well as family circumstances and needs and capabilities before recommending any nutritional intervention.

If there are nutrition concerns, the committee recommended, based on their clinical experience and expertise, to encourage people to increase portion size and eat high-energy foods in order to increase calorie intake and counterbalance increased energy requirements and malabsorption.

The committee noted that the available evidence showed that oral calorie supplements are not effective in improving nutrition or growth in people in cystic fibrosis. Therefore, the committee agreed not to recommend them as a routine intervention for the general population of people with cystic fibrosis. They discussed whether to recommend them if there are nutrition concerns. They noted that out of 3 studies on oral nutritional supplements, the population in 2 studies (Hanning 1993 and Kalnins 2005) was small (between 15 and 20 participants) and did not represent the population that dietitians would actually consider offering nutrition interventions to because inclusion criteria were either unclear (Hanning 1993) or used relatively high thresholds for weight (Kalnins 2005) to define the study populations. Only one study (Poustie 2006, 102 participants) showed no effectiveness of oral nutritional supplements in a population defined by inclusion criteria that were similar to the thresholds for additional nutritional support outlined in the CF Trust consensus document on nutritional management of cystic fibrosis. The committee agreed that supplements, if effective, would be preferable, from a patient’s perspective, to enteral tube feeding, which is an invasive technique, or to appetite stimulant drugs which may be associated with adverse effects. Therefore, based on their clinical experience and expertise, they agreed that oral nutritional supplements should be considered on a trial basis for people requiring additional nutrition who had not responded to dietary advice before considering more invasive interventions.

The committee noted that the evidence showed enteral tube feeding to be effective in improving nutrition and growth in people with cystic fibrosis. The committee agreed that the capacity and the capabilities of the person and family should always be carefully considered before embarking on this.

The committee looked at appetite stimulants as an alternative to enteral tube feeding. The committee noted that evidence on megestrol acetate and cyproheptadine hydrochloride shows that they can improve nutritional status and growth. However, the committee noted that the evidence was based on studies with small sample size and discussed whether appetite stimulants can have adverse effects such as hyperglycaemia and adrenal insufficiency. There was no evidence available on adverse effects of cyproheptadine hydrochloride and limited evidence available on adverse effects of megestrol acetate, which was limited to either 3 or 6 months follow-up. This evidence showed no clinically significant difference in constipation at 6 months and no difference in fasting blood glucose levels at 3 months (clinical significance could not be calculated) between participants receiving megestrol acetate and those receiving placebo. According to the evidence, some participants had decreased morning cortisol levels after receiving megestrol acetate, however, in one study with 3 months follow-up values in the control group were not reported, while in the other study with 6 months follow-up there was no clinically significant difference with the control group, and values increased after the intervention group stopped receiving megestrol acetate. The committee discussed that although many people with cystic fibrosis considering appetite stimulants might already have diabetes, and in their clinical experience, adrenal insufficiency is not very often observed, they agreed to recommend them only in adults, short-term (for example up to 3 months) and after all other options had been fully explored. Moreover, possible adverse effects should be explained so that an informed decision can be made. The committee discussed whether the appetite stimulants for which the evidence was reviewed (megestrol acetate and cyproheptadine hydrochloride) should be named in the recommendations. However, they agreed not to endorse these specifically because of the limitations of the evidence. The decision about these treatments should be based on the whole clinical picture as well as the patient’s preferences and capabilities.

The committee agreed that oral calorie supplements, enteral feeding and appetite stimulants should be closely monitored and discontinued if there are no positive outcomes.

10.1.7.3. Consideration of economic benefits and harms

The committee advised that oral supplements should not be routinely offered to all people with cystic fibrosis as dietary modifications are at least as effective and do not take away from NHS resources. Moreover, the cost of oral supplementation could be substantial over the longer term, especially if they are used to substitute rather than complement a healthy diet. A single measure could cost £2.45 (BNF August 2016, Scandishake® oral powder 85g sachet), but the specific supplement would depend on the person’s deficiencies which could require a more expensive preparation.

However, the committee agreed that oral supplements should be used to complement a person’s diet for acute use, during periods of ill health, such as an exacerbation, when they are nutritionally unwell and have the scope to benefit from oral supplementation when their normal diet is insufficient. Following this, the committee agreed that a research recommendation to assess the clinical and cost-effectiveness of oral supplementation in people with cystic fibrosis who are nutritionally unwell, would assess if the benefits from the acute use of oral supplementation can justify the costs to reduce current uncertainty in this area. However, a research recommendation was not prioritised, given that the findings would not contradict a recommendation to consider a trial of oral nutritional supplements if dietary modifications are not effective.

Conversely, in the longer term, the committee stated that optimal nutrition can prevent a decline in lung function. This iterates that the studies included in the clinical evidence review were too short to demonstrate the differences seen in clinical practice over several years. As a result, longer term studies would be needed to justify the additional cost of interventions compared to usual care when the aim is to maintain lung function.

The high upfront cost of tube feeding and the initial monitoring schedule was recognised by the committee. They acknowledged that tube feeding is associated with adverse effects (incurring a treatment cost and disutility) and can negatively impact social interactions during meal times. Despite this, the committee considered a role for tube feeding in the event of failure of efficacy or intolerance of alternative interventions where the benefits could outweigh the costs. The committee also added that the most appropriate type of tube feeding would be determined through a discussion with the dietitian, the person with cystic fibrosis and their family, to ensure their quality of life is maximised.

The committee advised that appetite stimulants are associated with severe side effects such as high blood glucose and adrenaline insufficiency. They should not be offered as a first-line option as the expected cost to manage those complications could outweigh the benefits from an increased appetite. Moreover, the cost of appetite stimulants could soon overtake the cost of tube feeding when they are prescribed on a long-term basis (BNF NHS Drug Tariff price, August 2016; cyproheptadine hydrochloride 4mg 4 times daily, £24.28/month; megace 480mg/day, £59.34/month).

Overall, the committee agreed that appropriate dietary modifications should be considered, before initiating oral supplements, tube feeding or appetite stimulants. Therefore, options associated with the least cost and resource use would be considered first. The committee were reluctant to specify the second-line intervention in their recommendations as this would depend on the capabilities and preferences of the person with cystic fibrosis and their family or carers. The committee added that there would need to be a decline in health, or faltering growth, before an intervention more costly and invasive than advice is considered.

10.1.7.4. Quality of evidence

The quality of the evidence presented in this review range from very low to high as assessed by GRADE.

For the domain risk of bias, the studies were assigned the same risk of bias as in the Cochrane reviews and were not individually reviewed. The main biases that lead to downgrading the quality of the evidence included randomisation, allocation concealment, and reporting bias.

Sample sizes of the studies are relatively small and statistical power might therefore be too low to show an effect. Another problem with the studies are that the intervention time and the follow-up time are not necessarily adequate to detect an effect in some outcomes (for example change in weight).

No serious issues were found regarding inconsistency (heterogeneity), as most comparisons included only one study.

Some issues regarding indirectness were also identified. The committee discussed that the participants in some of the studies on nutrition interventions among people with cystic fibrosis do not represent the population that dietitians would actually consider offering nutrition interventions to, instead the studies might include all people at a cystic fibrosis clinic, not just the ones with faltering growth or undernutrition.

10.1.7.5. Other considerations

The committee agreed that studies with longer follow-up are needed (over 18 months) as the aim of nutritional interventions is to prevent long term deterioration in lung function rather than improving it in the short term.

They also discussed that a possible explanation for interventions not proving to be effective is the lack of adherence.

At the time of publication (October 2017), there are no medicines available in the UK specifically licensed as appetite stimulants. However, there are clinical situations in which the off-label use of a medicine may be judged by the prescriber to be in the best clinical interests of the patient. As a result, the committee agreed they could recommend the off-label use of those medicines because the clinical need cannot be met by a licensed product and there is sufficient evidence and/or experience of using the medicines to demonstrate their safety and efficacy to support this.

No equality issues were identified by the committee for this review question.

The committee agreed that a research recommendation was not a priority in this area although it was noted that there was a lack of studies about nutritional interventions and children with faltering growth.

10.1.7.6. Key conclusions

The committee concluded that a dietitian should be an integral part of the multidisciplinary team caring for the person with cystic fibrosis. The evidence showed that enteral tube feeding and appetite stimulants are effective in improving nutritional status and growth in people with cystic fibrosis. However, because of the invasive nature of enteral tube feeding and the concern for potential adverse effects of appetite stimulants, dietary modifications through nutritional advice should always be considered as the first choice of treatment for a person with cystic fibrosis with undernutrition or faltering growth. The committee did not recommend routine use of oral calorie supplements for people with cystic fibrosis because no evidence was found to justify this. However, they did recommend that if there are signs that raise nutrition concerns, a trial of oral supplementation should be considered before proceeding to more invasive approaches.

10.1.8. Recommendations

97.

The cystic fibrosis specialist dietitian should offer advice on the benefits of optimal nutrition, and at the annual assessment, review the person’s:

  • total nutritional intake, including energy intake (calories)
  • estimated nutritional needs
  • pancreatic enzyme replacement therapy, if appropriate.

98.

Encourage people to increase calorie intake by increasing portion size and eating high-energy foods, if there is concern about their nutrition (including weight loss and inadequate weight gain).

99.

If increased portion size and high-energy foods are not effective, consider a trial of oral nutritional supplements.

100.

If attempts to increase calorie intake are not effective, consider:

  • supplementation with enteral tube feeding, or
  • for adults, a short-term trial of an appetite stimulant (for example up to 3 months)7.

10.2. Exocrine pancreatic insufficiency

Review question: In people with cystic fibrosis, what is the most effective regimen of pancreatic enzyme replacement therapy (PERT) in the treatment of exocrine pancreatic insufficiency?

10.2.1. Introduction

Cystic Fibrosis causes a number of gastrointestinal complications. Exocrine pancreatic insufficiency (PI) is a common gastrointestinal complication which affects people with cystic fibrosis.

Pancreatic insufficiency is caused by a progressive fibrotic process that begins in-utero. Pancreatic cells are damaged by deposits of dehydrated pancreatic secretions and replaced with fibrous scar tissue. The pancreas no longer functions effectively and produces reducing amounts of enzymes essential for digestion. Pancreatic exocrine insufficiency is the major cause of maldigestion of dietary macronutrients including fat, protein and carbohydrate. Untreated it will result in sub-optimal nutritional status, impaired growth and development, deficiency of fat soluble vitamins and symptoms of malabsorption such as steatorrhoea.

Pancreatic exocrine insufficiency is treated by the administration of pancreatic enzyme replacement therapy (PERT) with all fat and protein containing meals, snacks and drinks. PERT preparations contain variable concentrations of lipase, protease and amylase. The preparation chosen is dependent on clinical and individual requirements. The aim of PERT is to ensure adequate digestion of all nutrients thereby controlling the symptoms of malabsorption and ensuring growth, development and the maintenance of normal nutritional and fat soluble vitamin status.

An understanding of the signs and symptoms of pancreatic insufficiency are crucial to ensure its effective management with PERT. Pancreatic enzyme requirements vary at different times, influenced by respiratory health, changing nutritional requirements throughout childhood, and progressing pancreatic insufficiency. The purpose of this evidence review is to determine the optimal PERT regimen to manage pancreatic exocrine insufficiency in people with cystic fibrosis.

10.2.2. Description of clinical evidence

The objectives of this review were to evaluate the effectiveness of the following regimens in the treatment of exocrine pancreatic insufficiency:

  • PERT given with an acid neutralising or suppressing agent in comparison with PERT alone.
  • A high dose of PERT in comparison with a low dose of PERT.

We looked for systematic reviews of randomised controlled trial (RCTs) and RCTs (including cross-over trials).

For full details see review protocol in Appendix D.

One Cochrane Review was identified for this review question (Somaraju 2014) which evaluated the efficacy and safety of pancreatic enzyme replacement therapy in children and adults with cystic fibrosis. However, most comparisons of interest were different from those stated in our evidence review protocol as the Cochrane looked at enteric coated PERT compared to non-enteric coated PERT and enteric coated microspheres compared to tablets. The committee agreed that both non-enteric coated and tablets were not commonly used in clinical practice in the UK. It also did not included studies with less than 28 days follow-up. The individual relevant studies have been identified for potential inclusion in our review.

For comparison 1, the effectiveness and safety of adding an acid supressing agents (an H2 receptor antagonists or a protein pump inhibitor) to PERT therapy, 4 RCTs (Durie 1980, Heijerman 1991, Heijerman 1993 and Francisco 2002) were included.

For comparison 2, the effectiveness and safety of high dose versus low dose PERT, 4 RCTs (Heijerman 1991 – same as for comparison 1-, Brady 1991, Mitchell 1982 and Beker 1994), were included.

3 studies were conducted in the USA (Brady 1991, Beker 1994, Francisco 2002), 2 in Holland (Heijerman 1991, Heijerman 1993), 1 in Canada (Durie 1990) and 1 in New Zealand (Mitchel 1982).

With regards to the population, 4 studies were done in a children’s population (Beker 1994, Brady 1991, Durie 1980, Mitchell 1982) and 2 with adults (Heijerman 1991, Heijerman 1993). One study included both adults and children population (Francisco 2002).

All studies had cross-over design. In all of them the patients were allocated to at least 2 different interventions, with a variable follow-up (from 5 to 28 days). In all studies a stool collection was performed for the last 3 days of each treatment period and analysed for fat.

Of the outcomes listed in the protocol, all studies reported on the critical reduction of steatorrhoea and faecal fat. All seven studies measured faecal fat excretion (FFE), either as grams of fat per kg per 24 hours (Brady 1991), as grams of fat lost in the stool per 24 hours (Brady 1991, Beker 1994, Durie 1980) or as fat excreted as a percentage of dietary fat intake (Brady 1991, Durie 1980, Heijerman 1991, Heijerman 1993). Three studies measured fat absorption as a percentage of intake (Beker 1994, Francisco 2002, Mitchell 1982) (the coefficient of fat absorption, CFA). One study reported on resolution of symptoms of malabsorption (Mitchel 1982) and 1 study reported side effects of the treatment (Brady 1994).

No results were found for weight or BMI, health-related quality of life and patient satisfaction

A summary of the included studies is included in Table 151. See also study selection flow chart in Appendix F, study evidence tables in Appendix G, list of excluded studies in Appendix H, forest plots in Appendix I, and full GRADE profiles in Appendix J.

Table 151. Summary of included studies.

Table 151

Summary of included studies.

10.2.3. Summary of included studies

A summary of the studies that were included in this review are presented in Table 151.

10.2.4. Clinical evidence profile

The clinical evidence profiles for this review question are presented in Table 152 to Table 157.

Table 152. Summary clinical evidence profile: Comparison 1.1. PERT + cimetidine versus PERT alone in children.

Table 152

Summary clinical evidence profile: Comparison 1.1. PERT + cimetidine versus PERT alone in children.

Table 157. Summary clinical evidence profile: Comparison 2.2. High-dose PERT versus low-dose PERT in adults.

Table 157

Summary clinical evidence profile: Comparison 2.2. High-dose PERT versus low-dose PERT in adults.

10.2.4.1. Acid suppressing agents as adjuvant therapy to PERT

Table 153. Summary clinical evidence profile: Comparison 1.2. PERT + Ranitidine versus PERT alone in children.

Table 153

Summary clinical evidence profile: Comparison 1.2. PERT + Ranitidine versus PERT alone in children.

Table 154. Summary clinical evidence profile: Comparison 1.3. PERT + Omeprazole versus PERT alone in adults.

Table 154

Summary clinical evidence profile: Comparison 1.3. PERT + Omeprazole versus PERT alone in adults.

Table 155. Summary clinical evidence profile: Comparison 1.4. PERT + Ranitidine versus PERT alone in adults.

Table 155

Summary clinical evidence profile: Comparison 1.4. PERT + Ranitidine versus PERT alone in adults.

10.2.4.2. High-dose PERT versus low-dose of PERT

Table 156. Summary clinical evidence profile: Comparison 2.1. High dose PERT versus low dose PERT in children.

Table 156

Summary clinical evidence profile: Comparison 2.1. High dose PERT versus low dose PERT in children.

10.2.5. Economic evidence

No economic evaluations of interventions relevant to PERT were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. To aid consideration of cost-effectiveness, relevant resource and cost use data are presented in Appendix K.

10.2.6. Evidence statements

10.2.6.1. Comparison 1. Acid suppressing agents as adjuvant therapy to PERT

10.2.6.1.1. Evidence for children
Reduction of steatorrhea and faecal fat excretion

Low quality evidence from 1 cross-over trial with 21 children with cystic fibrosis showed that the mean faecal fat excretion (measured as percentage of consumed fat that is excreted) was lower when the children received Cimetidine (20 mg/kg/day) in addition to PERT treatment than when they received PERT and placebo at 2 week follow-up. However, the uncertainty around this could not be calculated.

Low quality evidence from 1 cross-over trial with 21 children with cystic fibrosis showed that there was a clinically significant difference in the reduction of faecal fat excretion (measured as g/24 hours) when the children received Cimetidine (20 mg/kg/day) in addition to PERT than when they received PERT and placebo at 2 week follow-up. This method of measuring fat excreted is inaccurate, as it does not take into account fat intake.

Fat absorption

High quality evidence from 1 cross-over trial with 12 children with cystic fibrosis showed no differences in the median of fat absorption (measured as % of consumed fat that is absorbed) between adding low-dose Ranitidine (5 mg/kg for children weighting under 40 kg or 150 mg twice daily for children weighting over 40kg) or placebo to PERT treatment at 12 days follow-up. However, the uncertainty around this could not be calculated.

High quality evidence from 1 cross-over trial with 12 children with cystic fibrosis showed no differences in the median of fat absorption (measured as % of consumed fat that is absorbed) between adding high-dose Ranitidine (10 mg/kg for children weighting under 40 kg or 300 mg twice daily for children weighting over 40kg) or placebo to PERT treatment at 12 days follow-up. However, the uncertainty around this could not be calculated.

Resolution of symptoms of malabsorption

No evidence was found for this critical outcome in children.

Weight

No evidence was found for this critical outcome in children.

Quality of life

No evidence was found for this important outcome in children.

Satisfaction

No evidence was found for this important outcome in children.

Adverse events

No evidence was found for this important outcome in children.

10.2.6.1.2. Evidence for adults
Reduction of steatorrhea and faecal fat excretion

Very low quality evidence from 1 cross-over trial with 9 adults with cystic fibrosis showed no difference in the median faecal fat excretion (measured as percentage of consumed fat that is excreted) between adding Omeprazole (20 mg/day) or placebo to low-dose PERT treatment at 4 week follow-up. However, the uncertainty around this could not be calculated.

Very low quality evidence from 1 cross-over trial with 9 adults with cystic fibrosis showed a decrease in the median faecal fat excretion (measured as percentage of consumed fat that is excreted) when the participants received Omeprazole (20 mg/day) in addition to high-dose PERT treatment than when they received PERT and placebo at 4 week follow-up. However, the uncertainty around this could not be calculated.

Low quality evidence from 1 cross-over trial with 11 adults with cystic fibrosis showed no difference in the median faecal fat excretion (measured as percentage of consumed fat that is excreted) between adding Omeprazole (20 mg/day) or placebo to PERT treatment at 4 week follow-up. However, the uncertainty around this could not be calculated.

Fat absorption

Moderate quality evidence from 1 cross-over trial with 9 adults with cystic fibrosis showed that the fat absorption (measured as % of consumed fat that is absorbed) was higher when the participants received omeprazole (20 mg/day) in addition to PERT treatment than when they received PERT and placebo at 12 days follow-up. However, the uncertainty around this could not be calculated.

High quality evidence from 1 cross-over trial with 10 adults with cystic fibrosis showed that the fat absorption (measured as % of consumed fat that is absorbed) was higher when the participants received low-dose Ranitidine (150 mg twice daily) in addition to PERT treatment than when they received PERT and placebo at 12 days follow-up. However, the uncertainty around this could not be calculated.

Moderate quality evidence from 1 cross-over trial with 10 adults with cystic fibrosis showed that the fat absorption (measured as % of consumed fat that is absorbed) was higher when the participants received high-dose Ranitidine (300 mg twice daily) in addition to PERT treatment than when they received PERT and placebo. However, the uncertainty around this could not be calculated.

Weight

No evidence was found for this critical outcome in adults.

Resolution of symptoms of malabsorption

No evidence was found for this critical outcome in adults.

Quality of life

No evidence was found for this important outcome in adults.

Satisfaction

No evidence was found for this important outcome in adults.

Adverse events

No evidence was found for this important outcome in adults.

10.2.6.2. Comparison 2. High versus low dose of PERT

10.2.6.2.1. Evidence for children
Reduction of steatorrhea and faecal fat excretion

Very low quality evidence from 1 cross-over trial with 9 children with cystic fibrosis showed that the mean faecal fat excretion (measured as g/kg/day) was lower when the children were allocated to the high-dose treatment arm at 2 week follow-up. However, the uncertainty around this could not be calculated. This method of measuring fat excreted is inaccurate, as it does not take into account fat intake.

Very low quality evidence from 1 cross-over trial with 9 children with cystic fibrosis showed that the mean faecal fat excretion (measured as percentage of consumed fat that is excreted) was lower when the children were allocated to the high-dose treatment arm at 2 week follow-up. However, the uncertainty around this outcome cannot be calculated.

Very low quality evidence from 2 cross-over trials with 30 children with cystic fibrosis showed that the mean faecal fat excretion (measured as g/day) was lower when the children were allocated to the high-dose treatment arm at 4 week follow-up at 4 week follow-up. However, the uncertainty around this could not be calculated. This method of measuring fat excreted is inaccurate, as it does not take into account fat intake.

Very low quality evidence from 1 cross-over trial with 12 children with cystic fibrosis showed no difference in the faecal fat excretion (measured as g/day) between the high-dose and the low-dose PERT treatment arms at 4 week follow-up. However, the uncertainty around this could not be calculated. This method of measuring fat excreted is inaccurate, as it does not take into account fat intake.

Fat absorption

Very low quality evidence from 2 cross-over trials with 33 children with cystic fibrosis showed that the fat absorption (measured as % of consumed fat that is absorbed) was higher when the children were allocated to the high-dose treatment arm at 9 days and at 4 week follow-up. However, the uncertainty around this could not be calculated.

Weight

No evidence was found for this critical outcome.

Resolution of symptoms of malabsorption

Very low quality evidence from 1 cross-over trial with 12 children with cystic fibrosis showed no clinically significant difference in stool frequency between the high and the low dose PERT treatment arms at 4 week follow-up.

Very low quality evidence from 1 cross-over trial with 12 children with cystic fibrosis showed no difference in the occurrence of abdominal pain between the high and the low dose PERT treatment arms at 4 week follow-up. However the uncertainty around this outcome could not be calculated.

Adverse Events

Very low quality evidence from 1 cross-over trial with 21 children with cystic fibrosis showed no episodes of constipation or elevation in serum acid levels in both high and low dose treatment arms at 9 days follow-up.

10.2.6.2.2. Evidence for adults
Reduction of steatorrhea and faecal fat excretion

Very low quality evidence from 1 cross-over trial with 9 adults with cystic fibrosis showed no clinically significant difference in the reduction of faecal fat excretion (measured as percentage of intake) between high dose and low dose PERT treatment arms at 2 week follow-up.

Fat absorption

No evidence was found for this important outcome.

Weight

No evidence was found for this critical outcome.

Resolution of symptoms of malabsorption

No evidence was found for this critical outcome.

Adverse events

No evidence was found for this important outcome.

10.2.6.3. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.2.7. Evidence to recommendations

10.2.7.1. Relative value placed on the outcomes considered

The aim of this review was to evaluate the effectiveness of PERT given with an acid neutralising or suppressing agent in comparison with PERT alone and to evaluate the effectiveness of a high dose of PERT in comparison with a low dose of PERT in the treatment of exocrine pancreatic insufficiency.

The critical outcomes specified by the committee were reduction of steatorrhoea using measures such as faecal fat excretion (total or as a percentage of fat consumption) and the coefficient of fat absorption (the percentage of consumed fat absorbed, based on the difference between fat consumed and fat excreted in the stool), weight, BMI (also % weight for height if available) and resolution of symptoms of malabsorption. Quality of life, satisfaction and drug related side effects were rated as important outcomes.

10.2.7.2. Consideration of clinical benefits and harms

The committee noted that pancreatic enzyme insufficiency is a common disorder among people with cystic fibrosis that prevents digestion and absorption of nutrients. This results in nutrient malabsorption and other symptoms such as diarrhoea. These, in turn, can affect quality of life and, eventually, result in malnutrition. Based on this, the committee agreed that all people with cystic fibrosis should be offered a test if there are signs or symptoms suggestive of malabsorption. This recommendation was based on their clinical knowledge and experience.

The committee discussed the technique that should be used to assess exocrine pancreatic insufficiency. They agreed direct pancreatic stimulation tests (such as the direct pancreatic stimulation test) are invasive, uncomfortable for the person and costly. Instead, they recommended the use of non-invasive techniques, such as stool elastase estimation, as it is a non-invasive easy to perform alternative. They noted there are other alternatives, such as the analysis of the percentage of fat absorbed or excreted, but they agreed they are uncomfortable for the person, as a 72-hours stool collection is needed, and they rely on the person accurately recording food intake.

The committee agreed that the use of PERT is well-established in clinical practice as it is known that PERT treatment is useful in overcoming enzyme deficiency in people with cystic fibrosis. However, they noted there is uncertainty regarding the optimal doses of enzymes needed.

The committee acknowledged the evidence presented comparing different treatment dosages, but they agreed it was of limited use because it was rated as of very low quality.. They noted that although normalisation of fat absorption and thus prevention of steatorrhoea would ideally be achieved with PERT, demonstrating this was in practice difficult. The reasons for this, as indicated above, are the measurement of stool fat entails stool collection and measurement of dietary fat intake over a period of days in order to calculate the coefficient of fat absorption. This approach is rarely done other than in a research context, as it is considered troublesome and impractical.

The committee acknowledged that the evidence suggested improved fat absorption with higher doses of pancreatic enzyme replacement therapy. However, dosage was likely to vary on an individual basis since the severity of pancreatic insufficiency was not uniform in people with cystic fibrosis. Optimal dose might differ depending on body size and dietary composition and intake. Infants and young children have a higher intake of fat proportionately than older children, young people and adults.

Based on this, the committee agreed to recommend to offer PERT to people with cystic fibrosis with pancreatic insufficiency and that the dose should be adjusted for each person in order to minimise symptoms of malabsorption. This recommendation is consistent with clinical practice and aligned with the CF Trust Consensus recommendations (CF Trust, Nutritional Management of Cystic Fibrosis 2016).

The committee agreed that evidence regarding the effectiveness of PERT dose and acid suppression in relation to resolution of malabsorption symptoms, improvement in weight and improvement in patient satisfaction or health-related quality of life was very limited and of very low quality or completely lacking. They noted that the normal clinical approach to determining individual need was an empirical one, for instance titrating the PERT dose in terms of units of lipase against the amount of fat being ingested. A standard dose, related to age in children, was usually given and adjustment then made based on the clinical response in terms of trying to achieve a normal bowel habit and the resolution of any malabsorption symptoms. They recommended that, in people with confirmed pancreatic exocrine insufficiency, the dose was titrated against symptoms and regularly reviewed. High enzyme concentration products would aid treatment optimisation where there was a higher dose requirement.

The committee noted that trials were of short duration and therefore it was not possible to assess whether prescribing high dose PERT treatment or adding an antacid had an impact on weight. They also noted the dosages used are very low compared to those used in clinical practice. In addition, most trials included a very small sample size and were underpowered to detect differences between treatment arms.

10.2.7.3. Consideration of economic benefits and harms

Based on their clinical expertise, the committee agreed PERT should be tested when symptoms or signs suggesting malabsorption occur, as the results of the test in those individuals would be used to improve their management strategy. For this reason, the committee made a recommendation to reinforce best practice to test for PERT using a noninvasive technique. Following this, the committee discussed if the test should be repeated annually in children and young people. However, they agreed the test would not add any additional information to a clinical assessment if the person is asymptomatic. Therefore, to prevent a cost-ineffective use of resources, a frequency was not recommended. Instead, the test should be repeated if symptoms or signs suggesting malabsorption occur, at any age.

When the committee discussed the management of PERT, it was noted that the dose-response may justify the additional cost of high-concentration PERT over low-concentration PERT. With regards to acid suppression, the committee agreed the clinical evidence was too uncertain to justify the costs for intermittent malabsorption. However, in people with cystic fibrosis with persistent symptoms of malabsorption, the committee believed the benefits from acid suppression would justify the costs. Overall, the committee agreed clinical judgement is necessary to provide the most cost-effective treatment as the optimal dose and concentration of enzymes is individualised based on weight and drug adherence.

10.2.7.4. Quality of evidence

The quality of the evidence presented in this report ranged from very low to high as assessed by GRADE. The main reasons that lead to downgrading the quality of the evidence were the following.

For the domain risk of bias, the 6 trials included in the review were assessed as having unclear or high risk of bias regarding randomisation and concealment methods. All of the trials were of cross-over design, but given the nature of the intervention it is not expected that treatments have a carry-over effect.

The committee noted that there were issues regarding indirectness of the intervention as the dosage used in some of the studies was much lower than current practice. In addition, they noted that measuring fat excretion or fat absorption as grams per 24 hours is inaccurate as it does not take into account daily intake.

Most trials were underpowered to detect a difference between both treatment groups.

Finally, there were some concerns regarding the statistical analysis used and the type of data reported. Due to this limitation most of the results could not be meta-analysed.

Imprecision could not be assessed when results were provided in medians.

10.2.7.5. Other considerations

No equality issues were identified by the committee for this review question.

The committee agreed that a research recommendation was not prioritised for this topic because clinical practice is already established. Additionally, there are treatments which are known, based on clinical expertise, to be useful in the treatment of pancreatic exocrine insufficiency.

At the time of publication (October 2017), cimetidine is the only H2 receptor antagonist licensed for this indication. In addition, none of the proton pump inhibitors available in the UK are licensed for this indication. However, there are clinical situations in which the off-label use of a medicine may be judged by the prescriber to be in the best clinical interests of the patient. As a result, the committee agreed they could recommend the off-label use of acid suppression agents because the clinical need may not be met by a licensed product and there is sufficient evidence and/or experience of using the medicines to demonstrate their safety and efficacy to support this.

10.2.7.6. Key conclusions

The committee concluded that people with cystic fibrosis with pancreatic insufficiency should be offered oral pancreatic enzyme replacement therapy. Although the evidence showed some indication that high-dose PERT treatment may have a beneficial impact in both faecal fat excretion and fat absorption when compared to standard or low-dose treatment, without an increase in side effects, the committee agreed that the dose should be adjusted to minimise symptoms of malabsorption.

In addition, the committee noted that there was some indication that addition of acid suppressants to PERT treatment may reduce faecal fat excretion and therefore the use of an acid suppressant agents can be considered in people with cystic fibrosis who have persistent symptoms of malabsorption despite optimal PERT therapy.

10.2.8. Recommendations

101.

Test for exocrine pancreatic insufficiency in people with cystic fibrosis, using a non-invasive technique such as stool elastase estimation. If the test result is normal, repeat it if symptoms or signs suggesting malabsorption occur.

102.

Offer oral pancreatic enzyme replacement therapy to people with exocrine pancreatic insufficiency. Adjust the dose as needed to minimise any symptoms or signs of malabsorption.

103.

Consider an acid suppression agent (for example an H2 receptor antagonist or a proton pump inhibitor)8 for people who have persistent symptoms or signs of malabsorption despite optimal pancreatic enzyme replacement therapy.

10.3. Distal intestinal obstruction syndrome

Review question: What are the effective strategies for treatment and secondary prevention of distal ileal obstruction syndrome?

10.3.1. Introduction

Cystic fibrosis can cause a number of gastro-intestinal problems. One gastro-intestinal problem characteristic of cystic fibrosis is a blockage in the bowel known as distal intestinal obstruction syndrome (DIOS), which is also known as distal ileal obstruction syndrome. DIOS is a specific cystic fibrosis-related clinical problem and, therefore, is best managed by clinical teams with experience of treating people with cystic fibrosis. Approximately 7–8% of people with cystic fibrosis will experience an episode of DIOS in their lifetime. Symptoms of DIOS are abdominal pain, abdominal distension, nausea and vomiting. Typical clinical examination findings include a distended abdomen, a palpable mass in the right iliac fossa and reduced or absent bowel sounds. Radiological imaging, usually involving an abdominal x-ray, ultrasound scan or CT-scan, helps to confirm the diagnosis. DIOS is much more common in those patients who have exocrine pancreatic insufficiency. The pathophysiology is not fully understood, but there are often multiple contributory factors including, dehydration, salt loss, rapid increase in pancreatic enzyme dosage or poor compliance with pancreatic enzyme therapy, altered gut motility and pH and dietary factors.

A number of patients suffer recurrent episodes in their lifetime. This review will look at the evidence for strategies both to prevent DIOS and for treating episodes of DIOS if they occur.

10.3.2. Description of clinical evidence

The aim of this review was to identify the effective strategies of primary treatment (acute treatment) in those with a diagnosis of cystic fibrosis and DIOS. Additionally, this review aimed to identify the effective strategies for the secondary prevention of DIOS.

Systematic reviews and RCTs that assessed the effectiveness of primary and secondary treatments for DIOS were eligible for inclusion in this review. However, no relevant systematic reviews or RCTs were identified. Hence, as per the protocol, conference abstracts of RCTs and non-randomised comparative studies were also considered although none was identified for inclusion and no evidence was available to inform the review.

For full details see review protocol in Appendix D.

See also study selection flow chart in Appendix F, and list of excluded studies in Appendix H.

10.3.3. Summary of included studies

Not applicable, as no studies were identified for inclusion in this review.

10.3.4. Clinical evidence profile

Not applicable, as no studies were identified for inclusion in this review.

10.3.5. Economic evidence

No economic evaluations of interventions relevant to DIOS were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. To aid consideration of cost-effectiveness, relevant resource and cost use data are presented in Appendix K.

10.3.6. Evidence statements

Not applicable, as no clinical or economic studies were identified for inclusion in this review.

10.3.7. Evidence to recommendations

10.3.7.1. Relative value placed on the outcomes considered

The aim of this review was to identify the most effective strategies for the primary treatment and secondary prevention of DIOS.

For the primary treatment, when a person presented with acute abdominal pain and other symptoms due to DIOS, the committee identified the following outcomes as critical reduction in clinical manifestations, adverse events from treatment and treatment failure. Patient satisfaction and duration of hospital stay were rated as important outcomes.

For the secondary prevention of DIOS, the committee identified the following outcomes as critical reduction in clinical manifestations, adverse events from treatment and recurrence of DIOS. Patient satisfaction was rated as an important outcome.

10.3.7.2. Consideration of clinical benefits and harms

The committee noted the absence of trials in the review. They agreed that there are difficulties in undertaking RCTs of treatments for those presenting with DIOS. In particular, the clinical presentation varies considerably. Some people have relatively minor symptoms (for example abdominal pain) while others might have symptoms of intestinal obstruction with vomiting. The approach to managing these patients would be tailored to their individual difficulties. Given the lack of evidence, the list of recommendations as part of this topic are derived from both current good practice and the committee expert opinion. In addition, the committee emphasised the variability in practice and the need to define a correct treatment.

Treatment of an acute episode of DIOS

Although the diagnosis of DIOS was not part of this review, the committee considered it was important to make recommendations on the recognition of DIOS in people with cystic fibrosis. Therefore, by consensus based on their clinical knowledge and experience, they agreed recommendations on this.

First, the committee highlighted the importance of making a differential diagnosis of acute abdominal pain in people with cystic fibrosis. Some causes of abdominal pain that may resemble DIOS include constipation, appendicitis, intussusception and cholecystitis. Their correct identification is important in order to decide the adequate treatment approach.

Although the symptoms of DIOS are variable, they agreed that DIOS should be suspected in people with cystic fibrosis who have an acute onset of peri-umbilical or right lower quadrant abdominal pain, and any of the following signs or symptoms are present; a palpable faecal mass in the right lower quadrant, faecal loading in the right lower quadrant on a plain abdominal radiograph, especially if associated with small intestine air-fluid levels and clinical features of partial or complete intestinal obstruction, such as vomiting (especially bilious) and abdominal distension. In the absence of clinical or radiological features of DIOS, additional imaging techniques, such as an abdominal ultrasound scan or an abdominal CT scan, can be considered.

They noted that people with cystic fibrosis presenting to non-cystic fibrosis clinical settings might be assumed to have appendicitis or other suspected causes for intestinal obstruction when DIOS was more likely. Therefore, they may be more likely to be subjected to unnecessary and potentially harmful surgical intervention.

Although it is common for a distinction to be made between complete versus impending DIOS the committee choose not to make this distinction. They agreed it was more accurate to view the syndrome as consisting of a continuum, some presenting with acute pain and evidence of stool retention in the distal ileum (either a palpable mass in the right iliac fossa or based on radiological imaging), while others might have overt clinical and radiological evidence of distal small intestinal obstruction. It was worth noting that some people with cystic fibrosis have evidence of a palpable mass in the right lower quadrant of the abdomen for years without developing the symptoms of DIOS.

As noted above, the committee recognised the lack of RCTs for the treatment of DIOS and the prevention of recurrent DIOS. However, they agreed there are certain basic principles which govern currently accepted management.

The committee discussed that an important contributor to the development of DIOS were dehydration of intestinal mucus due to the underlying defect in the cystic fibrosis conductance regulator. Other possible contributors were the increased viscosity of luminal contents and alterations in intestinal motility (delayed small intestinal transit) in cystic fibrosis. Although DIOS can occur in people with cystic fibrosis who are pancreatic sufficient, there is speculation that fat malabsorption can increase the risk either by increasing luminal content viscosity or by delaying intestinal transit (the ileal brake mechanism). For these reasons, the committee agreed that adequate hydration and, if necessary rehydration, was advisable in those presenting with DIOS. Encouraging ample oral fluid intake was advisable in those who were experiencing recurrent episodes of DIOS. In the latter group it was also a rational approach to review and attempt to optimise oral pancreatic enzyme replacement therapy as a preventive measure.

The committee noted that there are 2 approaches to medical therapy for DIOS currently in common use. Diatrizoate meglumine and diatrizoate sodium solution (Gastrografin) could be given either orally or via an enteral tube. They considered that this was often the quickest and most effective way of dealing with a blockage and adverse effects, if any, were usually minor. In addition, this is usually patient preference due to its tolerability and ease to take. Based on this, the committee agreed that this medication treatment regimen could be considered as first-line treatment.

If this was unsuccessful, the committee recommended a trial of treatment with stool softeners such as osmotic laxatives containing polyethylene glycol (PEG) in an iso-osmotic electrolyte solution (Macrogols). This could be taken orally or administered through an enteral tube.

Occasionally, if these measures proved unsuccessful in relieving the DIOS symptoms, recourse to surgery to alleviate the obstruction could be considered. However, they emphasised surgery should only be considered as a last resource. The committee noted that consultation with a surgeon may identify colonoscopic washout as an option before surgery. However, the committee decided not to include this in the recommendations because colonoscopic washout was not included in the review protocol and, therefore, evidence on this was not reviewed.

Secondary prevention

In addition to the potential value of enhanced oral fluid intake and optimisation of pancreatic enzyme replacement, as discussed above, the committee recommended trying a stool softening agent such as osmotic laxatives containing polyethylene glycol (PEG) in an iso-osmotic electrolyte solution (Macrogols). There was no clinical trial evidence for the effectiveness of such agents in this setting. However, the committee considered that they made rational sense and were readily tolerated. If recurrent DIOS was a concern it was reasonable to give a trial of prophylaxis with them. Osmotic laxatives, as described above, are commonly used in the long-term management of chronic constipation and are free of serious adverse effects.

10.3.7.3. Consideration of economic benefits and harms

The committee considered imaging studies to reduce the number of false positives as some people with cystic fibrosis have potentially serious conditions such as appendicitis or intussusception that might mimic the symptoms of DIOS. For this reason, the committee agreed imaging studies would be a cost-effective use of NHS resources as they would minimise the foregone risks and additional treatment costs associated with unidentified cases.

The committee also added that DIOS can be a serious and costly condition that negatively impacts a person’s health-related quality of life if incorrectly managed. Therefore, it would be necessary to manage suspected DIOS in a specialist cystic fibrosis centre, with supervision from specialists who have expertise in recognising and treating the condition and its complications, in order to minimise the number of incorrectly managed cases. As a result, a recommendation was prioritised to ensure resource allocations in this area are maintained.

According to the committee people with acute onset of DIOS symptoms can respond to an intravenous fluids to regain adequate hydration or osmotic laxative containing polyethylene glycol. These treatments are relatively inexpensive treatment at a cost of less than £10 per month. However, the committee noted that the more expensive treatment, diatrizoate, is often chosen as the first-line treatment in current clinical practice based on experience that it is the most effective first-line treatment with the potential for fewer side effects. Moreover, cheaper alternatives would overtake the cost of diatrizoate when they are required for longer durations to achieve the same effects.

Following this, the committee also agreed that the cost and distress incurred by a surgical procedure would be overtaken by pharmacological treatments that require ongoing costs and treatment burden. As a result, the committee made a recommendation to consider surgery if prolonged pharmacological treatment is not effective.

When making their recommendations, the committee referred to previous guidance (Colombo 2011) that recommends a stepwise approach to DIOS treatment. This involves using the least invasive options first and surgery only as a last resort. As a result, the committee believed guideline recommendations are not likely to represent a change in current practice and resource use.

10.3.7.4. Quality of evidence

Not applicable, as no studies were identified for inclusion in this review.

10.3.7.5. Other considerations

The guideline committee were not aware of any published trial and it was their clinical experience that the choice of a treatment over another was mainly empirically based. Current good practice guidance (Colombo 2011) was acknowledged by the Guideline committee, which they agreed was largely in line with their clinical experience.

The committee discussed potential equality issues. They noted adults may be more likely to go into a local hospital if the live far from the specialist centre. However, they agreed there was no need to draft additional recommendations as they had already recommended that suspected DIOS should be managed in a specialist cystic fibrosis centre, with supervision from specialists who have expertise in recognising and treating the condition and its complications. The committee noted that the expertise of these specialists should also cover the specialty areas of colonoscopy and gastroenterology.

The Guideline committee agreed that a research recommendation was not prioritised for this topic because clinical practice is already established and there are treatments which are known (based on clinical expertise) to be useful for people who are acutely ill and for secondary prevention.

At the time of publication (October 2017), diatrizoate meglumine, diatrizoate sodium solution and osmotic polyethylene glycol and electrolyte solution did not have a UK marketing authorisation for use in people with cystic fibrosis for this indication. However, there are clinical situations in which the off-label use of a medicine may be judged by the prescriber to be in the best clinical interests of the patient. As a result, the committee agreed they could recommend the off-label use of those medicines because the clinical need cannot be met by a licensed product and there is sufficient evidence and/or experience of using the medicines to demonstrate their safety and efficacy to support this.

10.3.7.6. Key conclusions

The Guideline committee concluded that in the absence of relevant published evidence, recommendations are based on their clinical experience, expert opinion and existing guidance. They agreed treatment of DIOS should be provided in a cystic fibrosis centre. The less invasive treatments should be the first choice for treating DIOS as they are generally effective in almost all people with DIOS.

10.3.8. Recommendations

104.

Be aware that a variety of conditions can cause acute abdominal pain and resemble distal intestinal obstruction syndrome in people with cystic fibrosis, for example:

  • constipation
  • appendicitis
  • intussusception
  • cholecystitis.

105.

Suspect distal intestinal obstruction syndrome in people with cystic fibrosis who have an acute onset of peri-umbilical or right lower quadrant abdominal pain and any of the following:

  • a palpable mass in the right lower quadrant
  • faecal loading in the right lower quadrant on a plain abdominal X-ray, especially if associated with small intestine air-fluid levels
  • clinical features of partial or complete intestinal obstruction, such as vomiting (especially bilious) and abdominal distension.

106.

For people who have an acute onset of peri-umbilical abdominal pain but no other clinical or radiological features of distal intestinal obstruction syndrome, consider further imaging, for example with an:

  • abdominal ultrasound scan, or
  • abdominal CT scan.

107.

Manage suspected distal intestinal obstruction syndrome in a specialist cystic fibrosis centre, with supervision from specialists who have expertise in recognising and treating the condition and its complications.

108.

Offer oral or intravenous fluids to ensure adequate hydration (and rehydration if needed) for people with distal intestinal obstruction syndrome.

109.

Consider diatrizoate meglumine and diatrizoate sodium solution (orally or via an enteral tube) as first-line treatment for distal intestinal obstruction syndrome.

110.

If diatrizoate meglumine and diatrizoate sodium solution (Gastrografin) is not effective, consider using an iso-osmotic polyethylene glycol and electrolyte (PEG) solution (macrogols) (orally or via an enteral tube) as a second-line treatment.

111.

Consider surgery as a last resort, if prolonged treatment with a PEG solution is not effective.

112.

To reduce the risk of distal intestinal obstruction syndrome recurring:

  • encourage people to drink plenty of fluids
  • optimise pancreatic enzyme replacement therapy (see recommendations on Exocrine pancreatic insufficiency).
  • consider advising regular treatment with a stool-softening agent such as lactulose or a PEG solution.

10.4. Monitoring for liver disease

Review question 1. What is the diagnostic accuracy of tests to detect / strategies to detect early and late cystic fibrosis liver disease?

Review question 2. What is the diagnostic and prognostic value of different strategies to detect cystic fibrosis liver disease and predict progression (including progression to cirrhosis and portal hypertension with (out) oesophageal varices)?

10.4.1. Introduction

The estimated prevalence of liver involvement in cystic fibrosis is reported to be between 26% and 45%. Clinical presentation with hepatomegaly and splenomegaly usually occurs within the first 10 years of age. There may be progression from focal hepatic biliary fibrosis to the development of cirrhosis and then portal hypertension with, or without, oesophageal varices complications (Debray 2011).

Diagnosis of cystic fibrosis-related liver disease is typically made by clinical examination (presence or absence of hepatosplenomegaly), biochemical tests, radiological methods (for example ultrasound scanning) and, where necessary, histological assessment (for example liver biopsy). Current UK practice uses clinical examination and biochemical liver testing to determine a baseline and to monitor progression of disease thereafter annually. Ultrasound is not usually offered on an annual basis to those without any signs of liver disease, but may be performed at intervals. Early detection of hepatic injury and fibrosis enables early treatment which may prevent further damage or even reverse very early damage.

There are currently no universally accepted definitions of liver disease (early, progressive, late) and these vary according to tests performed.

More recently, new definitions of liver disease have come into practice as a result of recommendations that are based on results from monitoring tests performed at clinical review. For example, clinical examination and routine liver function testing, with ultrasound imaging only being used if necessary. Broadly, cystic fibrosis-related liver disease is diagnosed if certain criteria are met. For example, some have suggested diagnosis based on 2 of the following conditions being met on at least 2 consecutive examinations spanning a set period (for example 3 months to 1 year):

  • hepatomegaly confirmed by ultrasound,
  • 2 abnormal (>upper limit of normal) serum liver enzyme levels (e.g. alanine aminotransferase, ALT; aspartate aminotransferase, AST; alkaline phosphatase, ALP, gamma-glutamyl transferase, GGT), or
  • ultrasound abnormalities other than hepatomegaly (increased heterogeneous echogenicity, nodularity, irregular margins).

If liver disease has not developed by adulthood, it may be that the person will not develop it. Therefore, the committee queried the value of using ultrasound at annual review, in addition to clinical examination and biochemical liver function tests, when there was no indication of liver disease from either test.

10.4.2. Description of clinical evidence

The aim of this review was to assess the diagnostic accuracy of different diagnostic strategies to detect cystic fibrosis-related liver disease (including cirrhosis, portal hypertension and oesophageal varices) defined by gold standard tests and to identify whether any tests are useful in predicting the progression of cystic fibrosis-related liver disease.

No “test and treat” RCTs, were available. Thus, for the diagnostic part of the review we looked for SRs of diagnostic studies, cross-sectional diagnostic studies, and case-control studies. For the prognostic question we searched for SRs of prognostic studies and cohort studies.

For full details see review protocol in Appendix D.

Eleven studies were included in this review (Fagundes 2004, Karlas 2012, Kitson 2013, Lewindon 2011, Lindblad 1999, Mueller-Abt 2008, Patriquin 1999, Rath 2012, Rath 2013, Sadler 2015, Witters 2009).

Studies were from Germany (Karlas 2012, Rath 2012, Rath 2013), Sweden (Lindblad 1999), Belgium (Witters 2009), Australia (Kitson 2013, Lewindon 2011, Mueller-Abt 2008), Canada (Patriquin 1999, Sadler 2015) and Brazil (Fagundes 2004).

With regards to study design, 7 were prospective cohorts (Fagundes 2004, Karlas 2012, Lewindon 2011, Patriquin 1999, Rath 2012, Rath 2013, Sadler 2015), 3 were retrospective cohorts (Lindblad 1999, Mueller-Abt 2008, Witters 2009) and 1 was a case control study (Kitson 2013) with population sizes ranging from 30 to 280 participants.

With regards to the population, 3 studies recruited children and young people (Lewindon 2011, Mueller-Abt 2008, Patriquin 1999), 3 studies only recruited adults (Karlas 2012, Kitson 2013, Sadler 2015) and 5 studies recruited both children and adults (Fagundes 2004, Lindblad 1999, Rath 2012, Rath 2013, Witters 2009), 1 of which reported children’s and adults’ results separately (Rath 2012).

Evidence was available for the following, used as reference standards to detect cystic fibrosis-related liver disease: clinical examination, biochemical testing, clinical examination and biochemical testing in combination, ultrasound, published cystic fibrosis-related liver disease definitions (incorporating clinical examination, biochemical testing and ultrasound), and biopsy. No evidence was available for MRI or CT scanning used as the reference standard.

Evidence was available for the following index tests: single biochemical tests (ALT, AST, GGT, and ALP), formulas using biochemical and other parameters (APRI and Forns score), ultrasound, transient elastography (FibroScan®) and clinical examination and ultrasound (in combination).

The definitions of cystic fibrosis-related liver disease varied according to the gold standard used and mostly incorporated more severe disease (cirrhosis). In a few studies, either separate data was available for or the reference standard was limited to definitions of cystic fibrosis-related liver disease (without cirrhosis), cirrhosis or portal hypertension (with or without oesophageal varices).

Diagnostic data (sensitivity, specificity, likelihood ratios) were available or calculated from information available in the full text of the report for all comparisons. Area under receiver operating characteristic curve (AUROC) data was less frequently presented in study reports.

Prognostic data for the development of cystic fibrosis-related liver disease and portal hypertension were available from 3 studies (Kitson 2013, Lewindon 2011, Woodruff 2016).

A summary of the included studies is presented in Table 158. See study selection flow chart in Appendix F, study evidence tables in Appendix G, list of excluded studies in Appendix H, forest plots in Appendix I, and full GRADE profiles in Appendix J.

Table 158. Summary of studies.

Table 158

Summary of studies.

10.4.3. Summary of included studies

A summary of the 11 studies included in this review is presented in Table 158

10.4.4. Clinical evidence profile

Summary clinical evidence profile tables are not applicable to this review. Please see clinical evidence GRADE profiles in Appendix J.

10.4.5. Economic evidence

No economic evaluations of tests to detect related liver disease in people with cystic fibrosis were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively. To aid consideration of cost-effectiveness relevant resource and cost use data are presented in Appendix K.

10.4.6. Evidence statements

10.4.6.1. Review question 1. What is the diagnostic accuracy of tests to detect/strategies to detect early and late cystic fibrosis-related liver disease?

10.4.6.1.1. Target condition: cystic-fibrosis liver disease (includes cirrhosis)
Clinical examination (hepatomegaly, splenomegaly)
Test 1. Diagnostic accuracy of clinical liver examination (versus biopsy)

High quality evidence from 1 cohort study of 40 children with cystic fibrosis found that clinical liver examination was not useful for ruling in (no serious imprecision) or for ruling out (no serious imprecision) cystic fibrosis-related liver disease (F1-F4 fibrosis).

Sensitivity was 68 (95% CI: 61–77)* and specificity was 33 (95% CI: 10–65)*.

Liver function blood tests (AST, ALT, GGT, Alkaline phosphatase, bilirubin, albumin, platelets and clotting) and indices based on these tests (e.g. APRI, Forns score, INR ratio)
Test 2. Diagnostic accuracy of ALT, AST and GGT (versus ultrasound)

High quality evidence was available from 1 cohort study of 195 children, young people and adults with cystic fibrosis that examined the use of ALT, AST and GGT at unspecified thresholds for detecting cystic fibrosis-related liver disease found that:

  • ALT was not useful for ruling in (no serious imprecision) or ruling out (no serious imprecision) cystic fibrosis-related liver disease
  • AST was not useful for ruling in (serious imprecision) or ruling out (no serious imprecision) cystic fibrosis-related liver disease
  • GGT was moderately useful for ruling in cystic fibrosis-related liver disease (serious imprecision), but was not useful for ruling out cystic fibrosis-related liver disease (no serious imprecision).

Sensitivities were 63.6 (95% CI: 34.4–86.0)*, 47.4 (95% CI: 33.4–60.6)* and 50.0 (95% CI: 22.0–75.1)* respectively and specificities were 79.0 (95% CI: 75.3–82.2)* and 87.9 (95% CI: 84.5–91.1)* and 90.4 (95% CI: 87.1–93.4)* respectively.

Note: Ultrasound signs were interpreted as follows: hypoechogenicity with prominent portal tracts as oedema, hyperechogenicity as steatosis, hyperechogenicity with increased attenuation and nodules within or at the edge of the liver as cirrhosis. Signs of portal hypertension also were sought and Doppler ultrasound used to assess presence and direction of blood flow and detection of oesophageal varices.

Test 3. Diagnostic accuracy of ALT, AST and GGT (versus biopsy)

Moderate quality evidence from 1 cohort study of 41 children, young people and adults with cystic fibrosis found that liver function testing (ALT, AST and GGT at thresholds of 0.8, 0.8 and 0.5 µkata respectively):

  • was not useful for ruling in (no serious imprecision) or for ruling out (serious imprecision) moderate or severe fibrosis/cirrhosis with steatosis;
  • was not useful for ruling in, but was very useful (no serious imprecision) for ruling out (serious imprecision) moderate or severe fibrosis/cirrhosis.

Sensitivities were 83 (95% CI: 68–94)* and 100 (95% CI: 78–100)* and specificities were 44 (95% CI: 26–58)* and 44 (95% CI: 33–44)* respectively.

Test 4. Diagnostic accuracy of ALT testing (versus biopsy)

Moderate quality evidence from 1 cohort study of 40 children and young people with cystic fibrosis found that ALT testing was not useful for ruling in (very serious imprecision) or for ruling out (no serious imprecision) cystic fibrosis-related liver disease (F1-F4 fibrosis).

Sensitivity was 30 (95% CI: 0–0.60)* and specificity was 98 (95% CI: 96–100)*.

Test 5. Diagnostic accuracy of alkaline phosphatase (ALP) (versus practice guideline cystic fibrosis-related liver disease definitions)

Moderate quality evidence from 1 cohort study of 45 children, young people and adults with cystic fibrosis found that use of ALP (age and gender specific cut-offs) was not useful for ruling in (serious imprecision) or for ruling out (serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 70.6 (95% CI: 49.5–85.5)* and specificity was 82.1 (95% CI: 69.3–91.2)*

Note: Practice guideline definitions included criteria for clinical, biochemical and ultrasound testing.

Test 6. Diagnostic accuracy of APRI (versus practice guideline cystic fibrosis-related liver disease definitions)

Low, moderate and high quality evidence from 3 cohort studies of children, young people and adults with cystic fibrosis (n=45, 55 and 122) examined the use of APRI at various thresholds to detect cystic fibrosis-related liver disease.

  • APRI thresholds of 0.133 in children and adults and of 0.4 and 0.5 in adults were moderately useful for ruling in (very serious imprecision), but not useful for ruling out (no serious imprecision) cystic fibrosis-related liver disease
    • sensitivities were 47.1 (95% CI: 28.2–56.7)*, 50 (95% CI: 29–69)* and 50 (95% CI: 29–68)* and specificities were 93.1 (95% CI: 82.0–98.7)*, 92 (95% CI: 88–95)* and 94 (95% CI: 90–97)* respectively.
  • An APRI threshold of 0.231 in adults was not useful for ruling in (no serious imprecision), but was moderately useful for ruling out (very serious imprecision) cystic fibrosis-related liver disease
    • sensitivity was 85.7 (95% CI: 60–97.4)* and specificity 70.7 (95% CI: 62.0–74.7)*.

Note: Practice guideline definitions included criteria for clinical, biochemical and ultrasound testing.

Test 7. Diagnostic accuracy of Forns score (versus practice guideline cystic fibrosis-related liver disease definitions)

Moderate quality evidence from 1 cohort study of 55 adults with cystic fibrosis found that use of Forns score at a threshold of 2.154 was not useful for ruling in (no serious imprecision) but was moderately useful for ruling out (very serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 92.9 (95% CI: 67.8–99.6)* and specificity was 61.0 (95% CI: 52.4–63.3)*.

Note: Practice guideline definitions included criteria for clinical, biochemical and ultrasound testing.

Imaging techniques
Test 8. Diagnostic accuracy of ultrasound (versus clinical cystic fibrosis-related liver disease definition)

Low quality evidence from 1 cohort study of 66 children, young people and adults with cystic fibrosis found that use of ultrasound at a threshold of Williams score ≥4 was not a useful test for ruling in (no serious imprecision) or for ruling out (no serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 66.7 (95% CI: 25.0–93.9)* and specificity was 66.7 (95% CI: 62.5–69.4)*.

Note: Diagnosis of cystic fibrosis-related liver disease according to the presence or absence of hepatomegaly or splenomegaly determined by clinical examination.

Test 9. Diagnostic accuracy of ultrasound (versus biochemical definition)

Low quality evidence from 1 cohort study of 66 children, young people and adults with cystic fibrosis found that use of ultrasound at a threshold of Williams score≥4 was not useful for ruling in (no serious imprecision) or ruling out (no serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 50.0 (95% CI: 14.3–85.6)* and specificity was 66.7 (95% CI: 63.1–70.2)*.

Note: Diagnosis of cystic fibrosis-related liver disease was defined as persistently elevated results (3–6 months, 1.5 times age-dependent upper limit of normal) for 2 of these liver tests: AST, ALT, alkaline phosphatase, bilirubin and gamma-GT.

Test 10. Diagnostic accuracy of ultrasound (versus clinical and or biochemical definition)

Moderate quality evidence from 1 cohort study of 70 infants, children, young people and adults with cystic fibrosis found that use that use of ultrasound at a threshold of Williams score ≥4 was moderately useful for ruling in (very serious imprecision), but not for ruling out (no serious imprecision) cystic fibrosis-related liver disease.

However moderate quality evidence from another cohort study of 66 children, young people and adults with cystic fibrosis found that use of ultrasound at a threshold of Williams score ≥4 was not useful for ruling in (no serious imprecision) and for ruling out (no serious imprecision) cystic fibrosis-related liver disease.

Sensitivities were 50.0 (95% CI: 22.0–75.1)* and 63.6 (95% CI: 33.6–87.0)* and specificities were 91.7 (95% CI: 87.0–95.8)* and 70.9 (95% CI: 64.9–75.6)* respectively.

Note: Diagnosis of cystic fibrosis-related liver disease was defined using clinical and biochemical criteria.

Test 11. Diagnostic accuracy of ultrasound (versus biopsy)

High, moderate and low quality evidence was available from 3 cohort studies of infants, children, young people and adults with cystic fibrosis (n=30, 40 and 41) that examined ultrasound imaging.

  • Ultrasound imaging was not useful for ruling in (serious imprecision) or for ruling out (serious imprecision) F1-F4 fibrosis in children
    • sensitivities were 81 (95% CI: 73–89)* and 65 (95% CI: 55–74)* and specificities were 44 (95% CI: 17–73)* and 57 (95% CI: 22–87)* respectively (high quality evidence from 2 studies).
  • Ultrasound imaging was not useful for ruling in (no serious imprecision) or ruling out (no serious imprecision) moderate or severe fibrosis/cirrhosis with steatosis
    • sensitivity was 70 (95% CI: 54–80)* and specificity was 78 (95% CI: 58–92)* (moderate quality evidence from 1 study).
  • Ultrasound testing was not useful for ruling in (no serious imprecision), but moderately useful for ruling out (very serious imprecision) moderate or severe fibrosis/cirrhosis without steatosis
    • sensitivity was 86 (95% CI: 61–97)* and specificity was 70 (95% CI: 58–76)* (low quality evidence from 1 study).
Test 12. Diagnostic accuracy of MRI (versus liver function tests or abnormal ultrasound)

Moderate quality evidence from 1 cohort study of 23 adults with cystic fibrosis found that use of MRI to detect 1 abnormal sign was not useful to rule in (very serious imprecision) or to rule out (no serious imprecision) cystic fibrosis-related liver disease.

Sensitivity 36.4 (95% CI: 14.7–51.1) and specificity was 83.3 (95% CI: 63.5–96.8)*.

Note: details of the diagnosis of cystic fibrosis-related liver disease according to liver function tests or abnormal ultrasound were not reported in the study.

Liver stiffness measurement (transient elastography or FibroScan®)
Test 13. Diagnostic accuracy of transient elastography (versus clinical cystic fibrosis-related liver disease definition)

Low quality evidence from 1 cohort study of66 children, young people and adults with cystic fibrosis found that use of transient elastography at a threshold of 5.63kPa for <12 years and 6.50kPa for ≥12 years was moderately useful for ruling in (serious imprecision) and for ruling out (very serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 83.3 (95% CI: 38.7–99.1)* and specificity was 85.0 (95% CI: 80.5–86.6)*

Note: Diagnosis of cystic fibrosis-related liver disease according to the presence or absence of hepatomegaly or splenomegaly determined by clinical examination.

Test 14. Diagnostic accuracy of transient elastography (versus biochemical definition)

Low quality evidence from 1 cohort study of 66 children, young people and adults with cystic fibrosis found that use of transient elastography at a threshold of 5.63kPa for <12 years and 6.50kPa for ≥12 years was not a useful test for ruling in (serious imprecision) or ruling out (serious imprecision) cystic fibrosis-related liver disease.

Sensitivity was 50.0 (95% CI: 14.5–85.3)* and specificity was 83.3 (95% CI: 79.8–86.9).

Note: Diagnosis of cystic fibrosis-related liver disease was defined as persistently elevated results (3–6 months, 1.5 times age-dependent upper limit of normal) for 2 of these liver tests: AST, ALT, alkaline phosphatase, bilirubin and gamma-GT.

Test 15. Diagnostic accuracy of transient elastography (versus clinical and or biochemical definition)

Moderate quality evidence from 1 cohort study of 66 children, young people and adults with cystic fibrosis found that use of transient elastography at a threshold of 5.63kPa for <12 years and 6.50kPa for ≥12 years was moderately useful for ruling in (very serious imprecision) but not useful for ruling (serious imprecision).

Sensitivity was 63.6 (95% CI: 34.4–86.0)* and specificity was 87.3 (95% CI: 81.4–91.8)*.

Note: Diagnosis of cystic fibrosis-related liver disease was defined using clinical and biochemical criteria.

Test 16. Diagnostic accuracy of transient elastography (versus practice guideline cystic fibrosis-related liver disease definition)

High quality evidence from 1 cohort study (n=136; 75 children and 61 adults) found that use of transient elastography at a threshold of 5.5kPa was not a useful test for ruling in (serious imprecision) or ruling out (no serious imprecision) cystic fibrosis-related liver disease.

Sensitivities were 53.3 (95% CI 43.2 to 61.2) and 55.2 (95% CI 40.7 to 66.8), and specificities were 76.7 (95% CI 61.4 to 88.4) and 78.1 (95% CI 60.0 to 88.7) in children and adults respectively.

Note: Diagnosis of cystic fibrosis-related liver disease was established according to published guidelines (Debray 2011) if least 2 of the following conditions on at least 2 consecutive examinations spanning a 1-year period were present: (i) Hepatomegaly (liver span >2 cm below the costal margin on the medioclavicular line) confirmed by ultrasound, (ii) 2 abnormal serum liver enzyme levels (ALT, AST, γGT > ULN), (iii) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins).

Test 17. Diagnostic accuracy of transient elastography (versus practice guideline cystic fibrosis-related liver disease definitions)

Low, moderate and high quality evidence from 3 cohort studies and 1 case control study of children, young people and adults with cystic fibrosis (n=45, 49, 127 and 50) was available that examined the use of transient elastography at various thresholds to detect cystic fibrosis-related liver disease as defined by practice guidelines.

  • At a threshold of 3.7 transient elastography was not useful for ruling in (no serious imprecision) or for ruling out (very serious imprecision) cystic fibrosis-related liver disease in a population of adults
    • sensitivity was 89 (95% CI: 66–98)* and specificity was 37 (95% CI: 33–38)*.
  • At a threshold of 5.3 kPa transient elastography was not useful for ruling in (serious imprecision) or for ruling out (serious imprecision) cystic fibrosis-related liver disease in a population of adults
    • sensitivity was 67 (95% CI: 43–85)* and specificity was 83 (95% CI: 79–86)*.
  • At a threshold of 5.9kPa transient elastography was very useful (very serious imprecision) for ruling in but not useful for ruling out (no serious imprecision) cystic fibrosis-related liver disease in a population of adults
    • sensitivity was 42.9 (95% CI: 2s.6–49.6)* and specificity was 97.1 (95% CI: 89.0–99.8)*.
  • At a threshold of 6.0 kPa, transient elastography was moderately useful (very serious imprecision) for ruling in but not useful for ruling out (no serious imprecision) cystic fibrosis-related liver disease in a population of adults
    • sensitivity was 56 (95% CI: 34–75)* and specificity was 91 (95% CI: 87–94)*.
  • At a threshold of 6.3kPa, transient elastography was very useful for ruling in (very serious imprecision, but at least moderately useful) and moderately useful (serious imprecision) for ruling out cystic fibrosis-related liver disease in a population of children, young people and adults
    • sensitivity was 82.4 (95% CI: 64.2–85.3)* and specificity was 98.2 (95% CI: 87.4–100)*.
  • At a threshold of 6.8kPa, transient elastography was moderately useful for ruling in (very serious imprecision) but not useful for ruling out (serious imprecision) cystic fibrosis-related liver disease in a population of adults
    • sensitivity was 76 (95% CI: 61.6–82.5)* and specificity was 92 (95% CI: 77.6–98.5)*.
  • Note: Practice guideline definitions included criteria for clinical, biochemical and ultrasound testing.
Test 18. Diagnostic accuracy of transient elastography (versus liver function tests or abnormal ultrasound)

Very low quality evidence from 1 cohort study of 23 adults with cystic fibrosis found that use of transient elastography to detect F2-F4 fibrosis was not useful to rule in (serious imprecision) or to rule out (very serious imprecision) cystic fibrosis-related liver disease. Sensitivity was 75 (95% CI: 24.2–98.6)* and specificity was 84.2 (95% CI: 73.5–69.2)*.

Note: details of the diagnosis of cystic fibrosis-related liver disease according to liver function tests or abnormal ultrasound were not reported in the study.

Combination of tests
Test 19. Diagnostic accuracy of ALT, AST and GGT + ultrasound (versus biopsy)

Moderate and low quality evidence from 1 cohort study of 41 children, young people and adults with cystic fibrosis found that combined use of liver function testing (ALT, AST and GGT at thresholds of 0.8, 0.8 and 0.5 µkata/respectively) and ultrasound imaging

  • was not useful for ruling in (serious imprecision) or ruling out (no serious imprecision) moderate or severe fibrosis/cirrhosis with steatosis
    • sensitivity was 65 (95% CI: 50–76)* and specificity was 78 (95% CI: 58–92)*.
  • was not useful for ruling in (serious imprecision) but were moderately useful (very serious imprecision) for ruling out in moderate or severe fibrosis/cirrhosis without steatosis
    • sensitivity was 86 (95% CI: 62–97)* and specificity was 74 (95% CI: 62–80)*.

Test 20. Diagnostic accuracy of clinical liver examination + ALT + ultrasound imaging (versus biopsy)

High and moderate quality evidence from 1 cohort study of 40 children with cystic fibrosis found that combined use of clinical liver examination, ALT testing and ultrasound imaging:

  • was not useful for ruling in (serious imprecision) or for ruling out (very serious imprecision) cystic fibrosis-related liver disease (F1-F4 fibrosis)
    • sensitivity was 97 (95% CI: 85–100)* and specificity was 13 (95% CI: 4–15)*.
  • was not useful for ruling in (serious imprecision) or for ruling out (very serious imprecision) cystic fibrosis-related liver disease (F2-F4 significant fibrosis)
    • sensitivity was 82 (95% CI: 62–95)* and specificity was 48 (95% CI: 33–57)*.

10.4.6.1.2. Target condition: cirrhosis only
Clinical examination (hepatomegaly, splenomegaly)

No evidence was found.

Liver function blood tests (AST, ALT, GGT, Alkaline phosphatase, bilirubin, albumin, platelets and clotting) and indices based on these tests (e.g. APRI, Forns score, INR ratio)
Test 1. Diagnostic accuracy of APRI (versus clinical examination + ultrasound)

Low quality evidence from 1 cohort study of 14 adults with cystic fibrosis and cystic fibrosis-related liver disease found that APRI at a threshold of 0.334 was moderately useful for ruling in (very serious imprecision) and moderately useful for ruling out (very serious imprecision) cirrhosis.

Sensitivity was 83.3.7 (95% CI: 45.0–98.5) and specificity was 87.5 (95% CI: 58.8–98.9).

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly).

Test 2. Diagnostic accuracy of Forns score (versus clinical examination + ultrasound)

Low quality evidence from 1 cohort study of 14 adults with cystic fibrosis and cystic fibrosis-related liver disease found that Forns score at a threshold of 4.059 was very useful for ruling in (very serious imprecision) and not useful for ruling out (no serious imprecision) cirrhosis.

Sensitivity was 66.7 (95% CI: 30.1–75.0) and specificity was 94.1 (95% CI: 68.3–100).

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly).

Imaging techniques
Test 3. Diagnostic accuracy of ultrasound (versus biopsy)

Moderate quality evidence from 1 cohort study of 30 infants, children and young people with cystic fibrosis found that ultrasound was a moderately useful test to rule in (very serious imprecision) but not useful to rule out (no serious imprecision) fibrosis.

Sensitivity was 0.57 (95% CI: 0.36–0.64)* and specificity was 0.94 (95% CI: 0.75–1.00)*.

Liver stiffness measurement (transient elastography or FibroScan®)
Test 4. Diagnostic accuracy of transient elastography (versus clinical examination + ultrasound)

Low quality evidence from 1 cohort study of 14 adults with cystic fibrosis and cystic fibrosis-related liver disease found that transient elastography at a threshold of 4.4kPa was not useful to rule in (serious imprecision), but was very useful to rule out (very serious imprecision) cirrhosis.

Sensitivity was 92.3 (95% CI: 56.2–100)* and specificity was 75 (95% CI: 45.7–81.2)*.

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly).

Combination of tests

No evidence was found.

10.4.6.2. Target condition: portal hypertension

Clinical examination (hepatomegaly, splenomegaly)

No evidence was found.

Liver function blood tests (AST, ALT, GGT, Alkaline phosphatase, bilirubin, albumin, platelets and clotting) and indices based on these tests (e.g. APRI, Forns score, INR ratio)
Test 1. Diagnostic accuracy of APRI (versus clinical examination)

Low quality evidence was available from 1 case control study of 50 adults with cystic fibrosis (25 with cystic fibrosis-related liver disease and 25 without cystic fibrosis-related liver disease) found that APRI at a threshold of 0.49 was very useful for ruling in (very serious imprecision) and moderately useful for ruling out (very serious imprecision) portal hypertension in the whole adult population and in those with cystic fibrosis-related liver disease.

Sensitivities were 87.5 (95% CI: 52.0–99.3)* and 87.5 (95% CI: 54.8–98.9)* respectively and specificities were 92.9 (95% CI: 86.1–95.1)*and 94.1 (95% CI: 78.7–99.5)*respectively.

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly). Portal hypertension: platelet count <140x109/L, splenomegaly, presence of porto-systemic collateral veins, portal diameter >13mm, or ascites.

Test 2. Diagnostic accuracy of Forns score (versus clinical examination)

Low quality evidence was available from 1 case control study of 50 adults with cystic fibrosis (25 with cystic fibrosis-related liver disease and 25 without cystic fibrosis-related liver disease) found that Forns score at a threshold of 0.68 was moderately useful for ruling in (serious imprecision) and moderately useful for ruling out (very serious imprecision) portal hypertension in the whole adult population and in those with cystic fibrosis-related liver disease.

Sensitivities were 87.5 (95% CI: 53.2–99.3)*and 87.5 (95% CI: 50.7–99.3)* respectively and specificities were 82.4 (95% CI: 66.2–87.9)*and 85.7 (95% CI: 78.7–88.0)* respectively.

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly). Portal hypertension: platelet count <140x109/L, splenomegaly, presence of porto-systemic collateral veins, portal diameter >13mm, or ascites.

Imaging techniques

No evidence was found.

Liver stiffness measurement (transient elastography or FibroScan®)
Test 3. Diagnostic accuracy of transient elastography (versus clinical examination)

Low quality evidence was available from 1 case control study of 50 adults with cystic fibrosis (25 with cystic fibrosis-related liver disease and 25 without cystic fibrosis-related liver disease) found that transient elastography at a threshold of 8.9kPa was moderately useful (very serious imprecision) for ruling in portal hypertension in the whole adult population but was not useful (serious imprecision) in those with cystic fibrosis-related liver disease. This threshold was moderately useful to rule out (very serious imprecision) portal hypertension in the whole adult population and in those with cystic fibrosis-related liver disease.

Sensitivities were 87.5 (95% CI: 51.4–99.3)*and 87.5 (95% CI: 52.9–99.3)* respectively and specificities were 90.5 (95% CI: 83.6–92.7)* and 76.5 (95% CI: 60.2–82.0)* respectively.

Note: Diagnosis of cystic fibrosis-related liver disease (Sokol 1999, Colombo 2002) if at least 2 of the following conditions present on at least 2 consecutive examinations spanning a 1-year period: (1) Ultrasound confirmed hepatomegaly;(2) elevated serum liver enzyme levels of ALT, AST, AP, or GGT;(3) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins, splenomegaly). Liver cirrhosis: distinct ultrasonographic signs (coarse nodularity, presence of portal hypertension and rarefication of peripheral portal veins) and clinical signs (for example oesophageal varices, splenomegaly). Portal hypertension: platelet count <140x109/L, splenomegaly, presence of porto-systemic collateral veins, portal diameter >13mm, or ascites.

Test 4. Diagnostic accuracy of transient elastography (versus biochemical and imaging)

High quality evidence was available from 1 cohort study of 70 adults with cystic fibrosis found that transient elastography at a threshold of 11.5kPa was very useful for ruling in (serious imprecision, but at least moderately useful) but not for ruling out (no serious imprecision) portal hypertension.

Sensitivity was 66.7 (95% CI: 36.2–77.2)* and specificity was 98.4 (95% CI: 93.9–99.9)*.

Note: Diagnosis of cystic fibrosis-related liver disease was established according to published guidelines (Debray 2011) if least 2 of the following conditions on at least 2 consecutive examinations spanning a 1-year period were present: (i) Hepatomegaly (liver span >2 cm below the costal margin on the medioclavicular line) confirmed by ultrasound, (ii) 2 abnormal serum liver enzyme levels (ALT, AST, γGT > ULN), (iii) ultrasound abnormalities other than hepatomegaly (increased, heterogeneous echogenicity, nodularity, irregular margins). Diagnosis of portal hypertension was based on clinical and lab data combined with sonographic or endoscopic signs of portal hypertension (defined splenomegaly, increased portal vein pressure in duplex Doppler sonography, platelet count 150,000/mm3, oesophageal varices or other signs of portal hypertension on oesophagogastroduodenoscopy.

Combination of tests

No evidence was found.

10.4.6.2.1. Target condition: oesophageal varices
Clinical examination (hepatomegaly, splenomegaly)

No evidence was found.

Liver function blood tests (AST, ALT, GGT, Alkaline phosphatase, bilirubin, albumin, platelets and clotting) and indices based on these tests (e.g. APRI, Forns score, INR ratio)
Test 1. Diagnostic accuracy of APRI (versus published definition)

Low quality evidence was available from 1 case control study of 23 adults with cystic fibrosis (13 with cystic fibrosis-related liver disease, and 10 without cystic fibrosis-related liver disease) found that APRI at a threshold of 0.49 was very useful for ruling in (very serious imprecision) and very useful for ruling out (very serious imprecision) oesophageal varices in the whole adult population and in those with cystic fibrosis-related liver disease.

Sensitivities were 100 (95% CI: 60.0–100)* and 100 (95% CI: 62.9–100)* respectively and specificities were 94.1 (95% CI: 80.0–94.1)* and 93.3 (95% CI: 63.7–93.3)* respectively.

Test 2. Diagnostic accuracy of Forns score (versus published definition)

Very low quality evidence was available from 1 case control study of 23 adults with cystic fibrosis (13 with cystic fibrosis-related liver disease, and 10 without cystic fibrosis-related liver disease) found that Forns score at a threshold of 0.68 was moderately useful for ruling in (serious imprecision) and very useful for ruling out (very serious imprecision) oesophageal varices in the whole adults population and in those with cystic fibrosis-related liver disease.

Sensitivities were 100 (95% CI: 62.9–100)* and 100 (95% CI: 58.9–100)* respectively and specificities were 85.7 (95% CI: 53.9–85.7)* and 88.2 (95% CI: 73.7–88.2)* respectively.

Imaging techniques

No evidence was found.

Liver stiffness measurement (transient elastography or FibroScan®)
Test 3. Diagnostic accuracy of transient elastography (versus published definition)

Very low quality evidence was available from 1 case control study of 23 adults with cystic fibrosis (13 with cystic fibrosis-related liver disease, and 10 without cystic fibrosis-related liver disease) found that transient elastography at a threshold of 8.9kPa was not useful to rule in (no serious imprecision), but was very useful to rule out cirrhosis (very serious imprecision) oesophageal varices in adults.

Sensitivity was 100 (95% CI: 57.8–100)* and specificity was 76.5 (95% CI: 61.6–76.5)*.

Combination of tests

No evidence was found.

10.4.6.3. Review question 2. What is the diagnostic and prognostic value of different strategies to detect cystic fibrosis-related liver disease and predict progression (including progression to cirrhosis and portal hypertension without oesophageal varices)?

10.4.6.3.1. Strategy 1. Clinical examination (hepatomegaly, splenomegaly)
Prognosis of liver disease

No evidence was identified.

Prognosis of cirrhosis

No evidence was identified.

Prognosis of portal hypertension

No evidence was identified.

10.4.6.3.2. Strategy 2. Liver function blood tests (AST, ALT, GGT, Alkaline phosphatase, bilirubin, albumin, platelets and clotting) and indices based on these tests (e.g. APRI, Forns score, INR ratio)
Prognosis of liver disease

High quality evidence from 1 prospective cohort study of 298 children with cystic fibrosis described a significant association between:

  • an elevated AST ≥ 1.5 ULN
  • an elevated GGTP ≥ 1.5 ULN
and the risk of developing cystic fibrosis-related liver disease at a median of 7 years follow-up.

However, no significant association was described for the following:

  • an elevated AST ≥ 2.0 ULN
  • an elevated ALT ≥ 1.5 ULN
  • an elevated ALT ≥ 2.0 ULN
  • an elevated GGTP ≥ 2.0 ULN.

Prognosis of cirrhosis

No evidence was identified.

Prognosis of portal hypertension

No evidence was identified.

10.4.6.3.3. Strategy 3. Imaging techniques
Prognosis of liver disease

No evidence was identified.

Prognosis of cirrhosis

No evidence was identified.

Prognosis of portal hypertension

No evidence was identified.

10.4.6.3.4. Strategy 4. Liver stiffness measurement - transient elastography (FibroScan®)
Prognosis of liver disease

No evidence was identified.

Prognosis of cirrhosis

No evidence was identified.

Prognosis of portal hypertension

No evidence was identified.

10.4.6.3.5. Strategy 5. Combination of different strategies
Prognosis of liver disease
Combination of transient elastography and biopsy

Low quality evidence from 1 case control study of 50 adults with cystic fibrosis set in a cystic fibrosis referral centre described a significant association between increasing liver stiffness and increasing risk of developing cystic fibrosis-related liver disease (adjOR: 2.74 (95% CI 1.53–4.89, p=0.001).

Prognosis of cirrhosis

No evidence was identified

Prognosis of portal hypertension
Combination of transient elastography and biopsy

High quality evidence from 1 cohort study of 40 children and young people with cystic fibrosis set in a cystic fibrosis clinic in a city hospital described a significant association between increasing fibrosis stage on biopsy and increasing risk of developing portal hypertension in adults from birth (adjHR: 3.9 (p<0.001, no 95% CI given) and from the time of biopsy (adjHR: 3.4 (p<0.002, no 95% CI given).

10.4.6.4. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.4.7. Evidence to recommendations

10.4.7.1. Relative value placed on the outcomes considered

The aim of this review was to assess the accuracy of different diagnostic strategies to detect cystic fibrosis-related liver disease (including cirrhosis, portal hypertension and oesophageal varices) defined by gold standard tests. Additionally, the aim was to identify whether any tests are useful in predicting the progression of cystic fibrosis-related liver disease.

As sensitivity and specificity reflect patient outcomes these were considered critical outcomes for this review. Consequences for people with cystic fibrosis following diagnosis were considered by the committee. Likelihood ratios were considered to be critical diagnostic outcomes because they provide information about a test’s usefulness in assisting the healthcare professional to make a diagnosis. AUROC diagnostic data, which inform the best thresholds for defining disease, were regarded as important but not critical to the review.

Sensitivity was used to evaluate imprecision for the detection of cystic fibrosis-related liver disease, including cirrhosis. Early accurate identification of disease might be important because there was a possibility that early use of ursodeoxycholic acid treatment might prevent liver disease progression. Specificity was used to evaluate imprecision for the detection of portal hypertension or oesophageal varices. This was because accurate identification of those without disease would avoid unnecessary referral to specialist hepatology centres and unnecessary investigation for this complication of advances cystic fibrosis-related liver disease.

Adjusted hazard ratios (adjHRs) and odds ratios (ORs) were regarded as critical prognostic outcomes for assessing the risk or probability of developing clinically significant liver disease (cirrhosis, portal hypertension, oesophageal varices) in the future based on current available information. Estimates that were not adjusted for confounders were excluded from the review.

10.4.7.2. Consideration of clinical benefits and harms

The committee agreed that their priority was early detection and treatment of liver disease in people with cystic fibrosis. Early detection may prevent further damage and, in some case, may be reversible. They agreed that irreversible liver disease would be under liver specialist management and was out with the scope of this guideline.

The committee discussed the importance of reducing the likelihood of a false negative diagnosis which could result in the withholding of potentially effective ursodeoxycholic acid treatment. The committee agreed that the impact of a false negative diagnosis would be mitigated by the slow progression of the disease and that the subsequent annual review would provide a further opportunity for identification. They noted that a false positive result might lead to unnecessary treatment and have a negative psychological impact.

It was noted that, while neonates with cystic fibrosis can demonstrate transient liver dysfunction (manifested by a temporary derangement of liver function tests), any perceived harm of starting unnecessary treatment is likely to be offset by the benefit of preventing irreversible liver damage.

The committee discussed the relative benefits and harms associated with the different diagnostic tests. Although the gold standard test for identification of liver pathology in cystic fibrosis is histological examination of biopsy samples, this is rarely performed in practice as it is invasive, may miss focal lesions and has associated risks for example with respect to general anaesthesia or infection. CT scanning and MRI scanning are also used as gold standards because of the high definition images that are obtained. But the evidence review found no evidence for CT or MRI scanning as the reference standard. The committee noted that although these investigations are not invasive, they are expensive and not routinely performed. The committee noted that there would be exposure to radiation with CT scans, which the patient may receive for other systemic investigations. Overall, the committee did not find evidence to support the use of liver biopsy, MRI and CT scans for the detection of liver disease in people with cystic fibrosis and did not make recommendations regarding their use.

The committee considered that interpretation of ultrasound images could be subjective in some respects. However, transient elastography produces an objective score that might be more reliable in detecting liver disease. The committee noted that unlike transient elastography, which uses sound waves to estimate liver stiffness, images from ultrasound provide information of the staging of disease progression occurring in the liver including portal hypertension when Doppler is used. Instead of an image, FibroScan® produces sound waves that limit the results that can be interpreted. Overall, the committee agreed there was little evidence to support the use of FibroScan® for early stage detection of liver disease and agreed that, because treatment with ursodeoxycholic acid would have already been initiated, the value of adding this test to a diagnostic regimen was diminished.

The development of new liver disease after late adolescence is very unusual. Therefore, the committee agreed that routine repeat ultrasounds may not be necessary in adults with previous normal scans. The value of annual review in adults is more to monitor the progression of liver disease rather than detect new liver disease.

Children with persistently elevated liver function tests or significant abnormalities on the ultrasound of liver and spleen need to be referred to a specialist paediatric liver unit. In children with cystic fibrosis the objective of monitoring would be to detect early evidence of liver disease, to look for evidence of disease progression and progression to chronic liver disease and its complications including portal hypertension. Clinical examination is routinely performed when people with cystic fibrosis attend for clinic appointments. Clinical examination would be unlikely to detect early disease but progression might reveal important signs such as hepatosplenomegaly. The committee, therefore, recommended that a clinical assessment for evidence of liver disease should be conducted annually for people with cystic fibrosis. The committee noted that some centres include an ultrasound scan at this clinical assessment, However, the evidence did not support specific recommendations on routine ultrasound screening. The committee agreed that decisions on the tests to be included at clinical assessment should be made at individual centres using clinical judgement.

It is currently common practice to perform blood test investigations to look for evidence of liver disease. The committee recommended that blood liver function tests should be performed in people with cystic fibrosis every year.

The committee recognised that ultrasound can detect evidence of liver disease, for example changes in liver echogenicity as well as advanced changes suggestive of portal hypertension. It can also detect the presence of gallstones which sometimes occur in cystic fibrosis. Transient elastography does not reveal these specific changes although it can detect increased liver stiffness suggestive of liver fibrosis and progressive liver disease. Ultrasound scanning is commonly used to monitor cystic fibrosis-related liver disease. The committee agreed that this may not be necessary if there was no evidence of liver disease, but that a liver ultrasound scan should be performed if the blood liver function tests were abnormal.

FibroScan® gives measurement of liver stiffness. If liver stiffness is present, the person is usually referred to a specialist liver service. The lay members on the committee pointed out that from a patient perspective, FibroScan® is very quick and easy to do and may not require further referral or referral time wait. However, the committee felt the added value of FibroScan® was unclear and it was unclear what decisions should follow an abnormal FibroScan® result.

10.4.7.3. Consideration of economic benefits and harms

The economic harms associated with an incorrect diagnosis are much smaller for early stage than late stage liver disease. If the majority of people with cystic fibrosis are incorrectly diagnosed as not having liver disease (false negatives), they are likely to be picked up at their next annual review. The question arises as to whether additional monitoring between the annual reviews is cost-effective. On the other hand, the committee noted the cost of monitoring for liver disease would be relatively insignificant when compared with the downstream costs associated with liver cirrhosis and subsequent portal hypertension that could require management with a liver transplant. However, the committee agreed such cases would be rare and concluded that more frequent assessments would not be a cost-effective use of resources.

The committee noted that if abnormal liver function blood tests are the first indication of liver disease, there are potential cost savings to the NHS if those tests can replace ultrasound scans at the annual review. This saving is particularly the case in adults who are unlikely to develop liver disease without prior suspicion. Following this, the committee agreed that a recommendation in favour of liver function blood tests as the first assessment was warranted.

However, the committee agreed that the results from an ultrasound scan could lead to a change in the management strategy when, for example, cirrhosis and portal hypertension (with Doppler) are detected. Given that an ultrasound can add additional information to an abnormal liver function blood test, a recommendation in that subgroup was considered as a cost-effective use of ultrasound scans.

10.4.7.4. Quality of evidence

Most of the evidence was derived from cohort studies. Outcomes presented within these studies were often downgraded to moderate or low for serious or very serious imprecision of sensitivity or specificity estimates. Evidence for detection of portal hypertension was largely derived from a single included case control study and was low quality at best and downgraded to very low quality for imprecision of specificity for some outcomes. The settings in cystic fibrosis or liver clinics were similar in all the studies.

The committee were concerned that the included studies were heterogeneous in terms of their population and the reference standards used. The committee noted that a small body of evidence was included overall and that the studies provided no evidence regarding early cystic fibrosis-related liver disease as specified in the review question. The studies provided evidence for cystic fibrosis-related liver disease which included those with cirrhosis. Some studies included those with clinically significant liver disease states (portal hypertension with or without oesophageal varices), although this was not always specified clearly. There was also some evidence that related to cirrhosis alone and to portal hypertension with or without oesophageal varices. However no studies with participants with early disease were retrieved. Although the point estimates for likelihood ratios for several comparisons indicated that the index test would be moderately or very useful for ruling in or ruling out disease, the 95% CIs for these point estimates were mostly wide and there was uncertainty as to whether tests would be useful at all. Two exceptions were:

  • High quality evidence from 1 cohort study of children and adults found that transient elastography at a threshold of 6.3kPa was at least moderately useful to rule in cystic fibrosis-related liver disease. The definition of cystic fibrosis-related liver disease was based on practice guidelines requiring biochemical and ultrasound testing.
  • A second cohort study provided high quality evidence that transient elastography at a threshold of 11.5kPa was at least moderately useful to rule in portal hypertension.

There was no evidence that examined the use of MRI or CT scanning as reference tests or evidence that examined the use of ultrasound in addition to clinical and biochemical testing in adults with no history of cystic fibrosis-related liver disease.

There were very little data available regarding tests that were useful to predict the development of clinically significant liver disease. One study provided low quality evidence of an association between increasing liver stiffness detected by transient elastography and the probability of developing cystic fibrosis-related liver disease in adulthood. A second study provided high quality evidence of an association between increasing fibrosis detected by biopsy and the later development of portal hypertension. The paucity of prognostic outcome data did not permit determination of a “best” reference standard from the evidence review. As such, liver disease was defined in accordance with each reference standard.

10.4.7.5. Other considerations

No equality issues were identified by the committee for this review question.

The committee discussed the need for a research recommendation in this topic. They noted FibroScan® gives measurement of liver stiffness. This can be useful to select who should be referred for further specialist service. From the patient perspective, FibroScan® is very quick and easy to do and may not require further referral or referral time wait. Based on this, the committee agreed it would be important to assess the added value of performing FibroScan® in people with cystic fibrosis, as good quality evidence is lacking for this population. However, the committee agreed this area was not a priority overall for a research recommendation.

10.4.7.6. Key conclusions

The committee chose not to make a recommendation regarding performance of clinical examination at other appointments for monitoring leaving this to clinical judgement.

The committee agreed that generally it was good practice to repeat liver function tests that were abnormal to confirm their accuracy, although this would depend on the clinical context. Therefore, they did not make a recommendation about this as this is part of routine clinical practice and judgement.

The committee decided that if there is evidence of chronic progressive liver disease based on clinical assessment, liver function tests or the findings of an ultrasound scan the person should be referred to a liver specialist.

Alternatively, if investigations for liver disease (such as a clinical examination, liver function tests, ultrasound imaging or FibroScan®) are persistently normal, then the cessation of treatment with ursodeoxycholic acid should be considered. Monitoring for future liver damage should continue in line with the annual monitoring schedule.

10.4.8. Recommendations

113.

Perform a clinical assessment and liver function blood tests at the annual review for people with cystic fibrosis.

114.

Refer people with cystic fibrosis to a liver specialist if they have any of the following:

  • chronic progressive liver disease, based on clinical assessment, liver function blood tests or the findings on a liver ultrasound scan
  • liver failure, based on clinical assessment and liver function tests
  • portal hypertension, haematemesis, splenomegaly or findings on a liver ultrasound scan.

10.5. Ursodeoxycholic acid

Review question: What is the effectiveness of ursodeoxycholic acid for preventing liver disease progression in people with cystic fibrosis?

10.5.1. Introduction

People with cystic fibrosis can develop cystic fibrosis related liver disease (CFRLD) as a complication of their disease. Monitoring for the early detection of CFRLD is therefore part of the overall routine care for all people with cystic fibrosis. CFRLD is a common complication in cystic fibrosis, with clinical presentation of hepatomegaly or splenomegaly usually around 10 years of age (see Complications review). The early detection and monitoring of CFRLD is therefore important in order to initiate and monitor potentially beneficial treatments.

Ursodeoxycholic acid (UDCA) is a commonly prescribed drug in people with cystic fibrosis. It is a bile acid analogue which may act to improve biliary flow in people with CFRLD. The current practice and indications for prescribing this drug varies widely. Although UDCA is an inexpensive and well tolerated drug, it represents an additional treatment burden for people with cystic fibrosis. It is within this context that this review of effectiveness has been conducted.

10.5.2. Description of clinical evidence

The objective of this review was to assess the clinical and cost effectiveness of UDCA for preventing liver disease progression in people with cystic fibrosis.

We looked for systematic reviews of RCTs including cross-over trials. Comparative cohort studies were not considered for inclusion, as enough evidence was retrieved from RCTs.

For full details see review protocol in Appendix D.

One Cochrane systematic review was identified for this review question (Cheng 2014) which included evidence from 3 RCTs (Colombo 1996, Merli 1994 and O’Brien 1992). Where possible, data and risk of bias assessment were extracted directly from the Cochrane systematic reviews. Individual studies were retrieved for completeness and accuracy, and were also checked for additional outcomes of interest.

All the RCTs included had either 6 or 12 months follow-up. No RCTs from the time of publication of the Cochrane systematic review and this review where found.

One RCT had cross-over study design (Merli 1994), and was conducted with 51 participants allocated to UDCA for 6 months, a wash out period of 1 month and then placebo for 6 months.

The trials were conducted in Italy and Ireland, and the population ranged from 12 to 55 participants. All the trials included children, young people and adults with cystic fibrosis. Two of the trials included people with liver disease (Colombo 1996, O’Brian 1992), and 1 included people with and without liver disease (Merli 1994).

Where change in hepatocellular enzyme or bilirubin was not reported in the RCT, the final value of the enzyme or bilirubin was reported.

A summary of the included studies is presented in Table 159. See also study selection flow chart in Appendix F, study evidence tables in Appendix G, list of excluded studies in Appendix H, forest plots in Appendix I, and full GRADE profiles in Appendix J.

Table 159. Summary included studies.

Table 159

Summary included studies.

10.5.3. Summary of included studies

A summary of the studies that were included in this review are presented in Table 159.

10.5.4. Clinical evidence profile

The summary clinical evidence profiles for this review question (UDCA) are presented in, Table 160.

Table 160. Summary clinical evidence profile: Comparison 1. UDCA versus Placebo or control.

Table 160

Summary clinical evidence profile: Comparison 1. UDCA versus Placebo or control.

10.5.5. Economic evidence

No economic evaluations of interventions relevant to UDCA were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. To aid considerations of cost-effectiveness the cost of UDCA over the course of 1 week and a month of continued has been estimated for all preparations.

Drug acquisition costs are taken from the NHS Electronic Drug Tariff October 2015. For an indication of primary biliary cirrhosis the BNF recommends a dose of 12–16 mg/kg daily in 3 divided doses for 3 months, then 12–16 mg/kg once daily at bedtime. Conversely in the studies by Merli 1994 and O’Brien 1992, participants received 12mg/kg daily and 20mg/kg daily, respectively.

For illustrative purposes, the costs in Table 161 are based 600mg daily as this was considered to be representative of the typical person with cystic fibrosis in clinical practice.

Table 161. Acquisition cost of UDCA.

Table 161

Acquisition cost of UDCA.

10.5.6. Evidence statements

10.5.6.1. Comparison 1. UDCA versus placebo or control

Change of hepatocellular enzymes or bilirubin level

Moderate quality evidence from 2 RCTs with 14 children, young people and adults with cystic fibrosis showed no clinically significant difference in lack of normalisation of AST between the group of participants receiving UDCA (12 or 20 mg/kg/day or) and those in the control group at 6 months follow-up.

Moderate quality evidence from 2 RCTs with 12 children, young people and adults with cystic fibrosis showed no clinically significant difference in lack of normalisation of ALT between the group of participants receiving UDCA (12 or 20 mg/kg/day or) and those in the control group at 6 months follow-up.

Low quality evidence from 2 RCTs with 10 children, young people and adults with cystic fibrosis showed no clinically significant difference in lack of normalisation of GGT between the group of participants receiving UDCA (12 or 20 mg/kg/day or) and those in the control group at 6 months follow-up.

Low quality evidence from 1 RCT with 12 children, young people and adults with cystic fibrosis showed no clinically significant difference in final bilirubin values (umol/l.) between the group of participants receiving UDCA (20 mg/kg/day) and those in the control group at 6 months follow-up.

Low quality evidence from 1 RCT with 27 children, young people and adults with cystic fibrosis showed no clinically significant difference in percentage change in AST, ALT and GGT between the group of participants receiving UDCA (1 to 3 300 mg. capsules per day) and those in the control group at 12 months follow-up.

No development of liver disease

High quality evidence from 1 cross-over trial with 11 participants found that participants who did not have cystic fibrosis related liver disease who received both UDCA and placebo did not develop liver disease at 6 months follow up.

Liver failure

Moderate quality evidence from 1 RCT with 28 participants reported that 1 participant taking UDCA had liver failure due to jaundice and no liver failure was found in placebo arm during the follow-up period of 12 months. There was no difference between UDCA and placebo.

Liver transplantation

Moderate quality evidence from 1 RCT with 28 participants reported that 1 participant taking UDCA required liver transplantation which was performed successfully and no liver transplantation was required in the placebo arm during the follow-up period of 12 months. There was no difference between UDCA and placebo.

A Cochrane systematic review of RCTs reported that none of the participant in 2 of the trials (Merli 1994 and O’Brien 1992) required liver transplantation (with personal communication with authors).

Liver related mortality

No evidence was found for this important outcome. However, a Cochrane systematic review of RCTs reported there was no deaths in 2 of the trials (Merli 1994 and O’Brien 1992, with personal communication with authors).

Development of portal hypertension

No evidence was found for this critical outcome. However, a Cochrane SR of RCTs reported that no development of portal hypertension occurred amongst participants in 2 RCTs (Merli 1994 and O’Brien 1992, with personal communication with authors).

Quality of life

No evidence was found for this important outcome.

10.5.6.2. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.5.7. Evidence to recommendations

10.5.7.1. Relative value placed on the outcomes considered

The objective of this review was to assess the clinical and cost effectiveness of UDCA for preventing liver disease progression in people with cystic fibrosis.

The committee agreed change of hepatocellular enzyme levels, progression to liver failure and development of portal hypertension indicated by an enlarged spleen (increased by at least 15%) and development of varices or ultrasound evidence of portal hypertension were critical outcomes for consideration in decision making. Health related quality of life, liver transplantation, liver related mortality and no development of liver disease were rated as important outcomes.

10.5.7.2. Consideration of clinical benefits and harms

The committee discussed the use of UDCA for primary prevention and secondary prophylaxis.

With regards to the use of UDCA in people with cystic fibrosis without liver disease, the committee noted most of the participants in the trials had pre-existing evidence of liver disease. Therefore, there was a lack of evidence to support the use of UDCA as primary prophylaxis aimed at preventing the onset of liver disease.

The committee noted that infants with cystic fibrosis who have meconium ileus, about 10–15%, were at increased risk of developing liver disease. However, in the absence of evidence showing a benefit, they did not recommend the use of UDCA even in these infants.

The committee discussed when UDCA should be given to prevent progression of liver disease and the duration of administration. They noted the available trials were small and the duration of follow-up was no more than a year. Consequently, it was unsurprising that there was no evidence for clinical benefit with UDCA in terms of preventing development of portal hypertension, liver failure or mortality.

The evidence did not show differences in terms of normalisation of hepatobiliary enzymes (including AST, ALT and GGT), final bilirubin values at 6 months or in percentage change in hepatobiliary enzymes (including AST, ALT and GGT) at 12 months between UDCA and placebo. However, the committee noted that signs of advanced liver disease, including portal hypertension were present at baseline for most of the participants. The fact that the liver disease had already progressed to this degree before starting UDCA might have led to an underestimate the potential benefit effect of UDCA in preventing disease progression.

The committee therefore recommended that if the liver function tests were abnormal, treatment with UDCA could be considered. The optimal duration of treatment was unknown and so they recommended that clinicians should think about discontinuing it if the liver function tests returned to normal levels and there was no clinical or ultrasound scan evidence of liver disease. If, subsequently, monitoring showed a recurrence of liver function test abnormality then the clinician would again consider giving UDCA. The committee also agreed that if the abnormal liver function tests did not resolve with UDCA and remained persistently abnormal, the clinician should consider referring to a liver specialist.

The committee did not made specific recommendations on the degree of abnormality of the various liver function tests used that should be considered abnormal or on the advisability of repeating blood tests when considering UDCA. They recognised that this was a complex area that required clinical expertise and judgement. A minor elevation of AST for example might not be significant whereas elevation of the serum bilirubin would be a reason for concern.

The committee believed that UDCA was considered safe for use, although in higher dosages it might cause diarrhoea.

10.5.7.3. Consideration of economic benefits and harms

The preparations of UDCA are comparable and relatively inexpensive in the short-term at a cost of approximately £1.08 to £1.27 a day (600mg daily) for capsules and oral suspension, respectively. However, the costs of prolonged use could be significant. Without knowing the benefits of UDCA in people with cystic fibrosis without liver disease, we cannot know if UDCA is a cost-effective prophylactic. Consequently, the committee agreed not to recommend UDCA in people with cystic fibrosis without evidence of liver disease.

Following this, the committee added that portal hypertension and liver disease were reported at baseline for many participants in the studies included in the clinical evidence review. As a result, they stated that this could potentially underestimate the cost-effectiveness of UDCA to prevent the initiation of liver disease.

The committee agreed that, although UDCA is relatively inexpensive and it has a good safety profile, this does not justify the continued prescription of these drugs without evidence of effectiveness. As a result, the committee made a recommendation to reduce unnecessary treatment costs and treatment burden by stopping UDCA if the annual clinical assessments show no evidence of liver disease.

No evidence was reviewed for subsequent treatment, thus, the committee made recommendations to think about referrals to a specialist to reinforce best practice.

10.5.7.4. Quality of evidence

The quality of the evidence presented in this report ranged from low to high as assessed by GRADE.

The risk of bias was one of the reasons that lead to downgrading the quality of the evidence, in particular lack of allocation concealment.

Imprecision also lead to downgrading the quality of the evidence as the confidence interval crossed 1 or 2 clinical or default MIDs (minimal important difference).

Inconsistency was not an issue as most outcomes were reported by a single study.

The evidence was not downgraded for indirectness. However, the committee noted that some of the participants had signs of liver disease at enrolment and, therefore, evidence on preventing development of liver disease is lacking.

10.5.7.5. Other considerations

No equality issues were identified by the committee for this review question.

The committee agreed to draft a research recommendation for this topic. They noted liver disease is the third most common cause of mortality in people with cystic fibrosis. Around 10 to 30% of people with cystic fibrosis will develop CFRD (See complications review). Children with meconium ileus are at an increased risk of liver disease. Starting treatment with UDCA from diagnosis may reduce this risk. UDCA appears safe, and is well tolerated and cheap. Routine use could increase people’s overall quality of life and reduce the need for subsequent treatment for liver disease, but more research is needed into the effectiveness and safety of this treatment.

The licensed indications of ursodeoxycholic acid vary depending on the preparation. In addition, the preparations that are licensed for this indication are not licensed for all ages. For this reason, the prescriber should check individual brands for licensing and follow relevant professional guidance, taking full responsibility for the decision. Informed consent should be obtained and documented. The General Medical Council’s Prescribing guidance: prescribing unlicensed medicines, should be sought for further information.

10.5.7.6. Key conclusions

The Guideline committee concluded that in the absence of evidence, they would not recommend using UDCA as primary prophylaxis.

The committee agreed that the available evidence did not show that UDCA was beneficial in achieving normalisation of hepatobiliary enzymes in people with cystic fibrosis and preexisting liver disease. They noted the limitations of the evidence as most of the participants in the studies had signs of advanced liver disease at baseline. Therefore, the fact that the liver disease had already progressed to this degree before starting UDCA might have led to an underestimate the potential benefit effect of UDCA in preventing disease progression. They agreed longer studies would be needed to assess whether UDCA is effective in terms of preventing development of portal hypertension, liver failure or mortality. Moreover, the committee noted liver disease is a serious complication of cystic fibrosis and so is very important to delay its progression. Based on all this, the committee agreed UDCA could be considered if liver function tests were abnormal. They agreed to monitor for response to treatment and refer to specialist advice if abnormal results are persistent.

10.5.8. Recommendations

115.

If liver function blood tests are abnormal, perform a liver ultrasound scan and consider ursodeoxycholic acid treatment9.

116.

Think about stopping ursodeoxycholic acid if liver function blood tests return to normal and clinical assessment and liver ultrasound scan show no liver disease.

117.

If ursodeoxycholic acid is stopped, monitor for re-emergence of liver disease using clinical assessment and liver function blood tests.

118.

Think about referring people with cystic fibrosis to a liver specialist if the liver function blood test results are persistently abnormal despite treatment with ursodeoxycholic acid.

10.5.9. Research recommendations

4.

Should all children with meconium ileus receive ursodeoxycholic acid from diagnosis?

Table 162. Research recommendation justification.

Table 162

Research recommendation justification.

Table 163. Research recommendation statements.

Table 163

Research recommendation statements.

10.6. Monitoring for cystic fibrosis related diabetes

10.6.1. Introduction

Diabetes mellitus is a common complication of cystic fibrosis. It differs from both type 1 and 2 diabetes mellitus encountered in people without cystic fibrosis and so is referred to as CF-related diabetes (CFRD). It is caused by a combination of slow progressive loss of the insulin-producing β-cells in the pancreas and the development of end-organ resistance to insulin. The prevalence of CFRD increases with age. Although symptoms of CFRD can include weight loss, thirst and increased urinary frequency, its onset can be insidious. Without treatment, uncontrolled CFRD can lead to a number of significant complications including more frequent respiratory exacerbations, an accelerated loss of lung function and a decline in nutritional status. People with cystic fibrosis are therefore regularly screened for CFRD, so treatment can be started early to prevent any complications. The clinical management of CFRD differs from other forms of diabetes mellitus in dietary advice and the use of agents to control blood sugar levels.

10.6.2. Description of clinical evidence

The aim of this review was to determine what criteria should be used to determine the need for insulin therapy to achieve optimal patient outcomes.

As the committee anticipated a lack of evidence to respond to this question, we also aimed to determine what thresholds of glucose dysregulation are associated with more rapid progression of lung disease (as a proxy measure to determine which criteria should be used to instigate treatment with insulin in people with cystic fibrosis).

We searched for systematic reviews, test-and-treat randomized controlled trials (RCTs) and prospective and retrospective comparative cohort studies. Conference abstracts were also considered in the absence of full published RCTs.

For full details see review protocol in Appendix D.

No studies were identified.

See study selection flow chart in Appendix F, and list of excluded studies in Appendix H.

10.6.3. Summary of included studies

Review question 1. What criteria should be used to determine the need for insulin therapy to achieve optimal patient outcomes?

No studies were identified for this question.

Review question 2. What thresholds of glucose dysregulation are associated with more rapid progression of lung disease?

No studies were identified for this question.

10.6.4. Clinical evidence profile

Not applicable, as no evidence was found for this review.

10.6.5. Economic evidence

No economic evaluations of strategies to monitor for the onset of CFRD were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. To aid consideration of cost-effectiveness relevant resource and cost use data on the OGTT and CGM are presented in Appendix K.

10.6.6. Evidence statements

Not applicable, as no clinical or economic evidence was found for this review.

10.6.7. Evidence to recommendations

10.6.7.1. Relative value placed on the outcomes considered

The aim of this review was to define what criteria should be used to determine the need for insulin therapy to achieve optimal patient outcomes.

The committee chose change in lung function (FEV1), forced vital capacity (FVC), lung clearance index (LCI), pulmonary exacerbations and body mass index (BMI) (z-scores for children) as critical outcomes for decision making. Adverse events and patient acceptability or satisfaction were rated as important outcomes.

10.6.7.2. Consideration of clinical benefits and harms

The committee recognised that diabetes is a very common complication in people with cystic fibrosis and it is important to identify it without delay. They highlighted early treatment with insulin is very important as it may improve lung function and weight. However, they recognised the lack of evidence in relation to these matters and were aware of a lack of consensus in clinical practice.

The committee emphasised that glucose may fluctuate in people with cystic fibrosis. The tests used to diagnose diabetes in the general population may not be suitable for the detection of CFRD. For this reason, they agreed that single point tests, when used alone, are not useful for the identification of CFRD. This is supported by a previous Health Technology Assessment (HTA 2012) and the American Diabetes Association (ADA 2010).

The committee discussed the use of the oral glucose tolerance test (OGTT) at length. They noted this test is commonly used to monitor for CFRD in current practice and is the test of choice for many professionals. The use of this test is also recommended by the American Diabetes Association [consensus recommendation] (ADA 2010) and the European Cystic Fibrosis Foundation (Alan 2014). However, they also noted the OGTT may not be an ideal test given that, as mentioned above, glucose dysregulation in CFRD is a dynamic and variable process. Based on this, they agreed OGTT may not be completely reliable and, if used and found abnormal, it should be backed up with dynamic testing. This will ensure that glucose regulation is assessed over several days. The committee discussed the important fact that hyperglycaemia associated with glucose dysregulation in CFRD can have a negative effect on clinical outcomes even before the usual diagnostic criteria for diabetes are met.

The committee discussed the potential benefit of continuous glucose monitoring (CGM). CGM would detect glucose dysregulation more reliably as it monitors the blood sugar level continuously for several days rather than relying on a single or few glucose measurements. This test is increasingly used in clinical practice for the detection of the onset of diabetes in people with cystic fibrosis. However, they acknowledged there is currently no evidence to require the routine use of this test. In addition, some drawbacks were also noted. CGM is more difficult to perform and to interpret compared to the OGTT and it has to be administered by trained staff, making it difficult to generalise its use to all cystic fibrosis clinics.

The committee agreed monitoring for CFRD should be done annually and should start from the age of 10, as recommended by the American Diabetes Association (ADA 2010) and the US Cystic Fibrosis Foundation (Moran 2010). This recommendation is consistent with current practice. Apart from the process of annual monitoring, investigation should be undertaken in a number of specific contexts. If people with cystic fibrosis have symptoms or signs of diabetes such as polydipsia and polyuria they should be appropriately investigated as recommended in existing NICE diabetes guidelines for children, young people and adults. In addition, the committee recommended consideration be given to investigating those with cystic fibrosis who, despite optimising their pulmonary management, have unexplained weight loss or an unexplained deterioration in lung function as measured by pulmonary spirometry, increased frequency of pulmonary exacerbations or lethargy and malaise. They also recommended monitoring for people taking long-term systemic corticosteroids or enteral tube feeding, in whom glucose dysregulation may occur. Monitoring should be done using CGM or serial glucose monitoring.

With regards to monitoring diabetes during pregnancy, the committee referred to the current NICE guidelines on Diabetes in Pregnancy (NG3 2015). They do not specifically address monitoring of CFRD in pregnancy. The committee noted that insulin therapy is often needed in pregnant women with cystic fibrosis as the threshold for commencing insulin is lower than in those without cystic fibrosis. They recommended that either CGM or an OGTT should be performed at the end of the first and second trimesters of pregnancy. This timing is consistent with recommendations from the US Cystic Fibrosis Foundation (Moran 2010).

10.6.7.3. Consideration of economic benefits and harms

The committee stated that people with cystic fibrosis require their own clinic space when attending for an OGTT to reduce their risk of cross-infection. This incurs a larger cost (£50) than OGTTs undertaken in a shared clinic space (NICE NG3 2015, 2-sample OGTT: £22.06). The committee added that in cases with an abnormal OGTT result, further dynamic tests such as serial blood sugar monitoring or CGM would be performed after a few days to obtain a complete picture of glucose levels.

Given that single-point tests can result in more false positives and negatives than two, or three point tests, the committee agreed that their recommendations should favour dynamic testing. This would reduce the number of people with cystic fibrosis that incur the downstream costs from an incorrect diagnosis. They ordered their recommendation on the type of test to that effect. However, when OGTT is performed, the committee agreed normal results have a higher specificity and sensitivity than abnormal results. Therefore, abnormal results should be followed by CGM or serial blood glucose monitoring to outweigh the potential costs of an incorrect diagnosis.

Unlike CGM in confirmed diabetes, the duration of CGM to monitor for its onset would be up to 5 to 7 days. For this reason, the committee stated that CGM systems would be shared across the clinic when used to monitor for the onset of CFRD. This would reduce the cost per person from approximately £3,500 per year (NICE NG17 2015) to £20 per year, including attendances and delays to receive and return the system. Following this, the committee questioned if CGM was the most expensive investigation. The cost of OGTT could overtake the cost of CGM if several visits were required, more so in children who require extra staff time to fit a cannula for their OGTT.

However, the committee noted that the majority of clinics do not have access to CGM systems or the expertise on how to use and interpret them appropriately in this population. The committee noted that each centre would require several CGM systems to ensure enough people were monitored by the centre each week. As a result, recommending CGM would lead a change in current practice and would incur upfront training costs and capital costs to implement.

Overall, the committee agreed they could not change current practice from the OGTT to CGM because there was not enough evidence to support the large injection of resources. As a result, the committee made a recommendation in favour of dynamic testing to allow centres to decide which strategy is cost-effective for them to provide. The committee also prioritised a research recommendation to identify the best strategy to diagnose CFRD in people with cystic fibrosis in order to mitigate current uncertainty in this area.

The committee outlined the populations at high risk of CFRD in their recommendations that may require more frequent monitoring. Those populations were prioritised as their condition could escalate much quicker between the annual reviews, leading to more intense and costly management.

10.6.7.4. Quality of evidence

Not applicable, as no evidence was found for this review.

10.6.7.5. Other considerations

The committee discussed potential equality issues. They noted cystic fibrosis related diabetes is common in females. However, they agreed care is the same for both genders so there was no need to draft additional recommendations.

Given the lack of evidence, and the uncertainty in relation to what is the best strategy to detect the onset of diabetes in people with cystic fibrosis, the committee agreed a research recommendation was useful. They highlighted it would be important to look at OGTT and CGM. Better testing would also provide guidance on when treatment with insulin should be initiated in people with cystic fibrosis.

10.6.7.6. Key conclusions

The guideline committee concluded that early detection of CFRD is very important. They noted OGTT is often used in clinical practice. However, they agreed it is an unreliable test and, if used, it should be backed up with dynamic testing over several days. They suggested CGM could be used instead as it monitors the blood sugar level continuously. Children should be monitored for the onset of CFRD from the age of 10 years. Monitoring should be done as part of the annual assessment and if there are symptoms suggestive of diabetes.

10.6.8. Recommendations

119.

Diagnose cystic-fibrosis-related diabetes using one of the following:

  • continuous glucose monitoring (CGM)
  • serial glucose testing over several days
  • oral glucose tolerance testing (OGTT) – if OGTT is abnormal perform CGM or serial glucose testing over several days to confirm the diagnosis.

120.

Test for cystic-fibrosis-related diabetes (as detailed in recommendation on diagnosing cystic-fibrosis-related diabetes) in people with cystic fibrosis annually from 10 years of age.

121.

Test for cystic-fibrosis-related diabetes at the end of the first and second trimesters of pregnancy, using CGM or OGTT.

122.

Test for cystic-fibrosis-related diabetes in people with cystic fibrosis who are taking long-term systemic corticosteroids or receiving enteral tube feeding, using CGM or serial glucose monitoring.

123.

Think about testing for cystic-fibrosis-related diabetes in people who still have any of the following despite optimised cystic fibrosis treatment:

  • unexplained weight loss
  • a deterioration in lung function as measured by spirometry
  • increased frequency of pulmonary exacerbations
  • excessive tiredness.

10.6.9. Research recommendations

5.

What is the most effective strategy to detect diabetes in people with cystic fibrosis?

Table 164. Research recommendation justification.

Table 164

Research recommendation justification.

Table 165. Research recommendation statements.

Table 165

Research recommendation statements.

10.7. Monitoring for low bone mineral density

Review question: What is the most effective strategy to monitor for the identification of reduced bone mineral density in people with CF?

10.7.1. Introduction

Improved survival in people with cystic fibrosis has contributed to the development of comorbidities. Low bone mineral density is a common co-morbidity affecting people with CF. It is, however, more frequently seen in adolescents and adults. Low bone mineral density can lead to the development of osteoporosis which results in the increased risk of fragility fractures.

The aetiology of low bone mineral density in people with cystic fibrosis is multifactorial. Contributory risk factors include poor nutritional status, delayed puberty, cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction, physical inactivity, deficiencies of calcium, vitamins D and K, recurrent respiratory exacerbations, corticosteroid treatment and hypogonadism. Medical and nutritional interventions should aim to optimise these multiple factors that affect bone health.

An important part of standard cystic fibrosis care is the prevention and recognition of low bone mineral density. Current bone health consensus committees recommend the monitoring of bone health using dual energy x-ray absorptiometry (DXA) scans. Although, the age to commence and frequency of scanning is variable and dependent on the presence of risk factors.

10.7.2. Description of clinical evidence

The objective of this review was to determine the most effective strategy to monitor for the identification of reduced mineral density in people with cystic fibrosis.

We looked for systematic reviews of test and treat RCTs, systematic reviews of cohort studies and prospective and retrospective cohort studies that looked at regular DXA scans or peripheral quantitative computed tomography (pQCT).

For full details see review protocol in Appendix D.

We identified 6 observational studies (Baker 2016, Bhudhikanok 1998, Brenckmann 2003, Haworth 2002, Papaioannou 2008, Schulze 2006).

Three studies were conducted in the USA (Baker 2016, Bhudhikanok 1998, Schulze 2006); 2 in Canada (Brenckmann 2003, Papaioannou 2008) and 1 in the UK (Haworth 2002) and the follow-up ranged from 1 to 4 years.

One study included young people (Schulze 2006); 3 included adults (Baker 2016, Brenckmann 2003, Papaioannou 2008); 1 included young people and adults (Haworth 2002) and 1 included children, young people and adults (Bhudhikanok 1998).

Population size ranged from 18 to 63 people.

With regards to the test, all studies used DXA scans and 1 study also used QCT (Haworth 2002).

Studies reported on change BMD at the lumbar spine (Baker 2016, Brenckmann 2003, Bhudhikanok 1998, Haworth 2002, Papaioannou 2008, Schulze 2006); at the proximal femur (Papaioannou 2008); at the hip (Brenckmann 2003, Haworth 2002); at the femoral neck (Bhudhikanok 1998, Haworth 2002) and change in whole body BMD (Brenckmann 2003, Bhudhikanok 1998, Papaioannou 2008 Schulze 2006). Five studies used z-scores (Baker 2016, Bhudhikanok 1998, Brenckmann 2003, Papaioannou 2008, Schulze 2006), 1 used t-scores for adults (Papaioannou 2008); and 1 study used mg/ml o g/cm2 (Haworth 2002).

Only 1 study (Baker 2016) used a multivariate model adjusting for age, gender, fat-free max index and height.

10.7.3. Summary of included studies

A summary of the studies that were included in this review are presented in Table 166.

Table 166. Summary of included studies.

Table 166

Summary of included studies.

10.7.4. Clinical evidence profile

A summary of the results in presented in Table 167.

Table 167. Prognostic indicators for bone mineral density.

Table 167

Prognostic indicators for bone mineral density.

10.7.5. Economic evidence

No economic evaluations of strategies to identify reduced BMD were identified in the literature search conducted for this guideline. Full details of the search economic article selection flow chart can be found in Appendix E and F, respectively.

Diagnostic procedures, including imaging, will not be considered cost-effective if there is not an effective treatment for the condition being diagnosed, or if the person’s management is not changed by the results. In other words, if the procedure does not add any additional information to a clinical assessment and does not change the management strategy, those procedures should not be recommended. However, to fully address the cost-effectiveness of strategies (DXA scans and peripheral quantitative computed tomography (pQCT)) to detect reduced BMD would require a model that included the management of reduced BMD which lies outside the scope of this guideline. Moreover, the studies included in the clinical evidence review compared the sites DXA scans could measure, as opposed to the accuracy of DXA scans compared to another imaging procedure. As a result, if the resource use for each site is equivalent, it is evident that the most accurate site should be measured and the economic focus should be on the frequency those scans are performed.

According to the committee, approximately one third of adults with cystic fibrosis have reduced BMD which can lead to osteoporosis and predispose them to bone fractures. Those complications can incur high treatment costs and negatively impact a person’s quality of life due to their reduced mobility and ability to perform their usual activities. For these reasons, there are potential cost savings to the NHS if imaging can better identify bone disease related to cystic fibrosis early in its course, resulting in more timely management and the possible prevention of complications associated with reduced BMD.

To assess the risk of reduced BMD in people with cystic fibrosis, the committee advised that most people would receive regular DXA scans, but some may undergo a pQCT scan which is more costly. The cost of those scans, according to NHS Reference Costs 2015, are reported in Table 168.

Table 168. Cost of imaging.

Table 168

Cost of imaging.

The committee advised that it would be difficult to accurately judge a person’s BMD prior to a scan, based on clinical assessment of their risk factors. Therefore, if scans are necessary to determine BMD, the committee should consider when those scans are performed as their frequency could have significant resource implications.

The committee also advised that bone health is strongly linked to the severity of lung disease, body weight and oral corticosteroids use. As a result, the committee should consider if there are populations which should undergo more frequent monitoring because they have a higher risk of reduced BMD compared to the general population, whose downstream costs would escalate much quicker if were are undetected. Finally, if pQCT scans are more costly than DXA scans, the committee should consider when pQCT scans can provide additional information to a DXA scan to justify their additional cost.

10.7.6. Evidence statements

10.7.6.1. Evidence in children and young people

Very low quality evidence from 1 longitudinal study with 18 prepubertal and pubertal girls and young females with CF (age range 7.6 to 17.9 years) suggested that:

  • a baseline z-score of −0.40 in lumbar spine BMD (measured by DXA scan) was associated with an overall change in BMD at the spine of −0.07 at 2.13 years follow-up
  • a baseline z-score of −0.29 in whole body BMD (measured by DXA scan) was associated with an overall change in whole body BMD of −0.17 at 2.13 years follow-up.

Very low quality evidence from 1 prospective longitudinal study with 20 children and young people with CF (9 males, 11 females; age not reported) suggested that:

  • a baseline z-score of −1.0 BMD at the lumbar spine (measured by DXA scan) was not significantly associated with a decrease in BMD at the lumbar spine at 17 months follow-up in boys and young males
  • a baseline z-score of −1.5 BMD at the lumbar spine (measured by DXA scan) was significantly associated with a decrease in BMD at the lumbar spine at 17 months follow-up in girls and young females
  • a baseline z-score of −0.8 BMD at the femoral neck (measured by DXA scan) was not significantly associated with a decrease in BMD at the femoral neck at 17 months follow-up in boys and young males
  • a baseline z-score of −2.0 BMD at the femoral neck (measured by DXA scan) was not significantly associated with a decrease in BMD at the femoral neck at 17 months follow-up in girls and young females
  • a baseline z-score of −0.3 in whole body BMD (measured by DXA scan) was significantly associated with a decrease in whole body BMD at 17 months follow-up in boys and young males
  • a baseline z-score of −1.3 in whole body BMD (measured by DXA scan) was significantly associated with a decrease in whole body BMD at 17 months follow-up in girls and young females.

10.7.6.2. Evidence in young people and young adults

Very low quality evidence from 1 longitudinal study with 55 young people and young adults with CF (age range 15 to 24 years) suggested that:

  • baseline lumbar spine BMD (measured by CQT or DXA) was not significantly associated with a decrease in lumbar spine BMD at 1 year follow-up
  • baseline femoral neck BMD (measured by DXA) was significantly associated with a decrease in femoral neck BMD at 1 year follow-up
  • baseline total hip BMD (measured by DXA) was significantly associated with a decrease in total hip BMD at 1 year follow-up.

10.7.6.3. Evidence in adults

Moderate quality evidence from 1 longitudinal study with 63 adults with CF (age range 18 to 57 years) suggested that low and very posterior-anterior spine BMD (defined as z-score ≤ −1 and z-score ≤ −2 and measured by DXA scan) were not significantly associated with greater loss of posterior-anterior spine bone mineral density at 2 years follow-up.

Low quality evidence from 1 longitudinal study with 40 adults with CF (age range 18 to 52 years) suggested that:

  • a baseline z-score of −0.9 BMD at the left hip (measured by DXA scan) was significantly associated with a decrease in BMD at the left hip at 1 year follow-up
  • a baseline z-score of −1.0 BMD at the right hip (measured by DXA scan) was significantly associated with a decrease in BMD at the right hip at 1 year follow-up
  • a baseline z-score of −1.1 BMD at the lumbar spine (measured by DXA scan) was not significantly associated with a decrease in BMD at the lumbar spine at 1 year follow-up
  • the change in total bone mineral density (measured by DXA scan) from baseline was negligible at 1 year follow-up.

Very low quality evidence from 1 prospective longitudinal study with 21 adults with CF (6 males, 15 females; age not reported) suggested that:

  • a baseline z-score of −2.5 BMD at the lumbar spine (measured by DXA scan) was not significantly associated with a decrease in BMD at the lumbar spine at 17 months follow-up in male adults
  • a baseline z-score of −1.9 BMD at the lumbar spine (measured by DXA scan) was not significantly associated with a decrease in BMD at the lumbar spine at 17 months follow-up in adult females
  • a baseline z-score of −2.5 BMD at the femoral neck (measured by DXA scan) was not significantly associated with a decrease in BMD at the femoral neck at 17 months follow-up in male adults
  • a baseline z-score of −2.2 BMD at the femoral neck (measured by DXA scan) was not significantly associated with a decrease in BMD at the femoral neck at 17 months follow-up in adult females
  • a baseline z-score of −2.0 in whole body BMD (measured by DXA scan) was not significantly associated with a decrease in whole body BMD at 17 months follow-up in male adults
  • a baseline z-score of −1.3 in whole body BMD (measured by DXA scan) was not significantly associated with a decrease in whole body BMD at 17 months follow-up in adult females.

Very low quality evidence from 1 longitudinal study with 59 adults with CF (age ≥ 25 years) suggested that:

  • baseline lumbar spine BMD (measured by CQT or DXA) was not significantly associated with a decrease in lumbar spine BMD at 1 year follow-up
  • baseline femoral neck BMD (measured by DXA) was significantly associated with a decrease in femoral neck BMD at 1 year follow-up
  • baseline total hip BMD (measured by DXA) was significantly associated with a decrease in total hip BMD at 1 year follow-up.

Very low quality from 1 longitudinal study with 49 adults with CF (mean age 25.2 years) suggested that:

  • a baseline t-score/z-score of −0.80 in lumbar spine BMD (measured by DXA scan) was associated with an overall rate of bone loss at lumbar spine was −0.73% at 4.3 years follow-up
  • a baseline t-score/z-score of −0.57 in proximal femur BMD (measured by DXA scan) was associated with an overall rate of bone loss at proximal femur was −1.93% at 4.3 years follow-up
  • a baseline t-score/z-score of −0.71 in whole body BMD (measured by DXA scan) was associated with an overall rate whole body loss was −0.40% at 4.3 years follow-up.

10.7.6.4. Economic evidence statement

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.7.7. Evidence to recommendations

10.7.7.1. Relative value placed on the outcomes considered

The objective of this review was to determine the most effective strategy to monitor for the identification of reduced mineral density in people with cystic fibrosis.

The committee chose change in bone mineral density as a critical outcome for decision making. Number of fractures and quality of life were rated as important outcomes.

10.7.7.2. Consideration of clinical benefits and harms

The committee acknowledged that most specialist cystic fibrosis centres currently follow the European CF bone mineralisation guidelines (Sermet-Gaudelus 2011). These guidelines recommend that a first bone density scan should be done around age 8 to 10 years and repeated every 1 - 5 years depending on severity (according to BMD t- or z-scores) and risk factors.

The committee discussed the usefulness of conducing regular monitoring for bone mineral density in children as these tests are difficult to interpret in this population. Likewise, the committee discussed whether routine DXA scans should be offered to all adults. They noted that it is unlikely that people over 18 years can build bone mass as this is mostly done during teenage years, therefore, there is limited intervention.

Careful liaison with a bone specialist should occur before commencing children or adults on bisphosphonate therapy. This should include the optimal dose of treatment, duration and monitoring of long-term effects. People should be counselled about the side-effects of bisphosphates before commencing therapy. Careful consideration should also be given to the use of bisphosphates in women of child-bearing age. Vitamin D deficiency and ensuring an optimal calcium intake need to be addressed prior to commencing bisphosphonates. It is important to minimise risk factors for low BMD for example improving nutritional status and encouraging weight bearing exercise.

Even though it was not specifically addressed in the evidence, the committee agreed it is recognised that certain groups across all age groups may benefit from monitoring as they are at a higher risk of reduced bone mineral density. These groups may include people who present with under-nutrition, those using corticosteroids (either frequently of long-term use), those with a history of low impact fracture, those who present exacerbations that require intravenous antibiotics on regular basis, those with poor lung function (low FEV1), post-menopausal women and following transplants.

The committee noted the available evidence did not provide any clarity in relation to which body sites should be scanned. Therefore, they agreed that a z-score of −2.0 standard deviations at any body site would be considered abnormal and they recommended to seek expert advice.

The committee agreed z-scores should be used in children, whereas z-scores or t-scores can be used in adults. Although, t-scores are more useful in post-menopausal women and men over 50 years.

10.7.7.3. Consideration of economic benefits and harms

Once presented with the clinical evidence and an outline of the resources scans entail, the committee questioned the value of monitoring for reduced BMD in current clinical practice. They stated that the absence of evidence does not mean current clinical practice should be recommended when the opportunity cost of those resources is high.

The committee noted that scans are useful to compare someone’s BMD to the general population as the results can infer if they are at a higher risk of fracture. These results can potentially reduce the number of undiagnosed fractures and downstream costs they entail. Despite this, the committee agreed that management is rarely changed based on the results obtained from a scan as people with cystic fibrosis should always be encouraged to optimise calcium and vitamin D and participate in exercise. Moreover, clinicians are reluctant to prescribe bisphosphonates to maintain BMD in young adults due to their negative effects on fertility, iterating that a low BMD finding from a scan is unlikely to initiate such treatment. For these reasons alone, it was evident to the committee that the use of scans in current clinical practice was not a cost-effective use of resources.

The committee added that DXA scans can overestimate reductions in BMD. If people with reduced BMD are aware of their higher risk of fracture they may stop exercising, resulting in a counterproductive effect. Furthermore, even though the cost of one DXA scan is not substantial, performing a DXA scan every 3 years in everyone with cystic fibrosis under current practice has a substantial resource and cost use when the total is considered.

An alternative to a DXA scan is a pQCT scan. However, the committee advised that the use of pQCT scans to monitor for BMD remains a research area as their interpretation is not fully understood by clinicians in clinical practice. It was noted that pQCT scans can emit radiation and are more expensive to perform than DXA scans due to the extra time and equipment they require.

Overall, the committee agreed that monitoring for reduced BMD would not be considered cost-effective in all cases. They subsequently identified populations deemed to be at a higher risk of reduced BMD who could benefit from a DXA scan.

In those populations, the committee agreed scans could be repeated on an annual basis if the BMD SDS score is less than −2.00. However, the committee did not state the frequency of bone scans in their recommendations as the frequency should be individualised to the person with cystic fibrosis, according to clinical expertise. This would inform if treatment to prevent reduced BMD should to be escalated or stopped or if specialist advice should be sought regarding bisphosphonate treatment.

The committee considered performing a DXA scan after the transition from paediatric to adult services for a baseline BMD measure and then as necessary. However, the committee noted that weight can change BMD quite markedly, this questions the value of a baseline scan that could soon be outdated. As a result, a recommendation was only prioritised to monitor BMD in high risk populations. The committee advised that this would lead to a large change in current practice and result in cost savings, but would not compromise on health benefit as current practice was not a cost-effective use of resources.

10.7.7.4. Quality of evidence

Prospective and retrospective observational studies were included in the review. The quality of the evidence, as assessed per individual studies using a critical appraisal tool for the evaluation of the quality of prognosis studies in systematic reviews (Hayden et al. 2006), was very low. The main sources of bias in the studies were:

  • poorly reported sample selection, with unclear inclusion and exclusion criteria,
  • the study sample did not fully represent the population of interest with regard to key characteristics, and
  • important potential confounders were not appropriately accounted for.

Due to all these limitations, the committee considered that the usefulness of the data reported in the studies is very limited.

10.7.7.5. Other considerations

Due to the scarcity and low quality of the evidence, the recommendations were mainly based on committee members’ clinical experience and consensus on good clinical practice.

The committee acknowledge there is a lack of longitudinal studies to evaluate the impact of low BMD on fractures and quality of life. However, it is known that people with cystic fibrosis are at an increased risk of developing osteopenia and osteoporosis (See section on Complications). They were also aware of cross-sectional evidence showing a correlation between low BMD, decreased lung function and poor nutritional status. However, they noted that although the main concern is the risk of fractures, the incidence of fractures in this population is not particularly high.

As discussed previously, the committee agreed the absence of evidence showing a benefit in conducting regular scans, and the fact that people receive treatment anyway, justifies the change in practice. Moreover, conducting routine exams can create anxiety. However, they agreed that people with cystic fibrosis and their carers may feel concerned about a change in practice. They suggested it is important to talk to the families and discuss their concerns.

No equality issues were identified by the committee for this review question.

The committee noted that evidence regarding the impact of low BMD in fractures was mostly conducted in post-menopausal women. They agreed it would be helpful if a study could be conducted looking at people with cystic fibrosis and highlighted the importance in assessing fractures and quality of life. However, it was agreed that this was not a priority research recommendation for the guideline as a whole.

10.7.7.6. Key conclusions

The committee concluded that there is no need to perform routine bone density scans to all children and adults with cystic fibrosis. DXA scans should only be considered in children and adults who are at risk of low bone mineral density. This is because there is little value in routine monitoring as children and young people get treated to help accrue bone mass in spite of the results of the test.

10.7.8. Recommendations

124.

Consider dual energy X-ray absorptiometry (DXA) bone density scans for people with cystic fibrosis who have factors that put them at high risk of low bone mineral density, such as:

  • frequent or long-term oral corticosteroid use
  • frequent intravenous antibiotic use
  • severe lung disease
  • undernutrition
  • previous low-impact fractures
  • previous transplants
  • post menopause.

125.

Seek specialist advice for people with a bone mineral density standard deviation below −2.0 (Z score) or −2.5 (T score).

10.8. Exercise

Review question: What is the effectiveness of programmes of exercise in the management of cystic fibrosis?

10.8.1. Introduction

Physical Exercise programmes are widely recommended as a routine part of the management of cystic fibrosis. In addition to the benefits found by the general population, exercise participation is advised in cystic fibrosis to help maintain and slow the decline in respiratory function, facilitate airway clearance techniques, help improve bone mineral density and to increase and maintain muscle strength, flexibility and posture.

Improving and maintaining cardiovascular fitness is very important for people with cystic fibrosis. Regular education, monitoring and assessment of fitness from the point of diagnosis allows for programmes to be tailored to the individual through the spectrum of cystic fibrosis to meet specific needs

People with cystic fibrosis can experience a number of barriers to full engagement in regular exercise programmes. Some of these barrier can include physical limitations such as fatigue, frequent exacerbations and the treatment burden of medications, nebulisers and physiotherapy. Environmental and socioeconomic factors can limit participation in exercise such as access to appropriate facilities and support both in the community and in the hospital.

Exercise education and prescription has been a routine part of clinical care in cystic fibrosis for many years. However, there is extensive variability in content, supervision and frequency of the intervention. This variation is due to the lack of information about the effectiveness of specific programmes of physical exercise, including supervised and unsupervised programmes, which can lead to improve outcomes and benefits for people with cystic fibrosis.

10.8.2. Description of clinical evidence

The aim of this review was to determine the effectiveness of different exercise programmes in improving health outcomes for people with cystic fibrosis.

The interventions reviewed were: aerobic exercise programme; strength resistance training; high intensity interval training; habitual physical activity; inspiratory muscle training (performed at maximal inspiratory effort of at least 80%) or any combination of these interventions.

We looked for systematic reviews of randomized controlled trials (RCTs) and RCTs. Systematic reviews were assessed for inclusion against the protocol, and if relevant, their quality was assessed using AMSTAR. High-quality systematic reviews were included in our review, and where possible data and quality assessment were taken directly from the review.

Individual studies were retrieved for completeness and accuracy, and were also checked for additional outcomes. Low-quality SR were excluded from our review, but the list of included studies was checked to identify relevant trials.

Given that no evidence was found for high intensity interval training or time to next exacerbation (a critical outcome) in the RCTs, cohort studies were assessed for inclusion and data were reported from these studies only in relation to this intervention or this critical outcome not covered by the RCTs.

Although there were no RCTs on habitual physical activity, cohort studies relating to this intervention were not assessed because the committee thought that the information from RCTs on long term exercise programmes was sufficient to formulate recommendations. Only 1 study on habitual physical activity was included (Cox 2016) because it looked at the outcome need for hospitalization, which was considered appropriate as a proxy outcome for time to next exacerbation.

For full details see review protocol in Appendix D.

Three Cochrane reviews were identified in the search (Cox 2013, Houston 2013, Radtke 2015).

Two reviews were included in the review:

One review was excluded:

  • Cox (2013) evaluated interventions for promoting physical activity in people with cystic fibrosis. No additional trials were included from this review, as they were included in Radtke (2015).

In addition, 3 RCTs (Beaudoin 2016, Orenstein 2004, Schindel 2015) and 2 cohort studies (Cox 2016, Gruber 2014) were included.

The size of the RCTs or cohort studies ranged from 14 to 67 participants. 5 studies included adults (Beaudoin 2016, Cox 2016, Enright 2004, Gruber 2014, Moorcroft 2004), 1 young people aged ≥ 16 years and adults (Rovedder 2014), 2 young people aged >12 years and adults (Hebestreit 2010, Kriemler 2013), 6 children and young people (Hommerding 2015, Klijn 2004, Orenstein 2004, Santana-Sosa 2012, Santana-Sosa 2014, Selvadurai 2002), 2 children, young people and adults (Schindel 2015; Schneiderman-Walker 2000)

2 studies were conducted in the UK (Enright 2004, Moorcroft 2004), 3 in Brazil (Hommerding 2015, Rovedder 2014, Schindel 2015), 2 in Germany (Hebestreit 2010, Gruber 2014), 2 in Spain (Santana-Sosa 2012, Santana-Sosa 2014), 2 in Canada (Beaudoin 2016, Schneiderman-Walker 2000), 2 in Australia (Cox 2016, Selvadurai 2002), 1 in the Netherlands (Klijn 2004), 1 in Switzerland (Kriemler 2013), 1 in the USA (Orenstein 2004).

6 studies assessed a supervised exercise programme (Gruber 2014, Klijn 2004, Orenstein 2004, Santana-Sosa 2014, Santana-Sosa 2012, Selvadurai 2002). 8 studies assessed a partially supervised or unsupervised exercise programme (Beaudoin 2016, Hebestreit 2010, Hommerding 2015, Kriemler 2013, Moorcroft 2004, Rovedder 2014, Schindel 2015, Schneiderman-Walker 2000). 1 study assessed supervised inspiratory muscle training (Enright 2004). 1 study assessed habitual physical activity (Cox 2016)

1 study compared a supervised aerobic exercise programme for about 19 days to no exercise programme (Selvadurai 2002). 3 studies compared an unsupervised aerobic exercise programme to no exercise programme (Hommerding 2015, Kriemler 2013, Schneiderman Walker 2000). Depending on the study, training lasted 3 months (Hommerding 2015); 6 months (Kriemler 2013) or 3 years (Schneiderman-Walker 2000).

2 studies compared a supervised strength resistance / anaerobic training programme to no exercise programme (Selvadurai 2002, Kllijn 2004). Training lasted either about 19 days (Selvadurai 2002) or 12 weeks (Klijn 2004). 1 study compared an unsupervised strength resistance / anaerobic training programme for 6 months to no exercise programme (Kriemler 2013).

2 studies compared a supervised strength / anaerobic training programme to a supervised aerobic programme (Selvadurai 2002, Orenstein 2004). Training lasted either about 19 days (Selvadurai 2002) or 1 year (Orenstein 2004). One study compared an unsupervised strength / anaerobic training programme for 6 months to an unsupervised aerobic programme for 6 months (Kriemler 2013).

1 study compared a supervised high-intensity interval training for 6 weeks to standard aerobic and anaerobic exercise programme for 6 weeks (Gruber 2014).

1 study compared a supervised combined aerobic and anaerobic training programme for 8 weeks to no exercise programme (Santana-Sosa 2012).

5 studies compared an unsupervised combined aerobic and anaerobic training programme to no exercise programme (Beaudoin 2016, Hebestreit 2010, Moorcroft 2004, Rovedder 2014, Schindel 2015). Depending on the study, duration of training was 12 weeks (Beaudoin 2016), 3 months (Rovedder 2014 and Schindel 2015), 6 months (Hebestreit 2010), or 1 year (Moorcroft 2004).

1 study compared a supervised combined inspiratory muscle training, resistance and aerobic training for 8 weeks to no exercise programme (Santana-Sosa 2014).

1 study compared supervised inspiratory muscle training at 80% of maximal effort for 8 weeks to usual care (Enright 2004).

1 study compared a higher amount or longer duration of habitual physical activity to a smaller amount or shorter duration (Cox 2016).

A summary of the included studies is presented in Table 169. See also study selection flow chart in Appendix F, study evidence tables in Appendix G, list of excluded studies in Appendix H, forest plots in Appendix I, and full GRADE profiles in Appendix J.

Table 169. Summary of included studies.

Table 169

Summary of included studies.

10.8.3. Summary of included studies

A summary of the studies that were included in this review are presented in Table 169.

10.8.4. Clinical evidence profile

The clinical evidence profiles for this review question (exercise in people with cystic fibrosis) are presented in Table 170 to Table 177.

Table 170. Summary clinical evidence profile: Comparison 1. Aerobic exercise training programme versus no exercise programme.

Table 170

Summary clinical evidence profile: Comparison 1. Aerobic exercise training programme versus no exercise programme.

Table 177. Summary clinical evidence profile: Comparison 7. Physical activity: higher amount or longer duration versus lower amount or shorter duration.

Table 177

Summary clinical evidence profile: Comparison 7. Physical activity: higher amount or longer duration versus lower amount or shorter duration.

Table 171. Summary clinical evidence profile: Comparison 2.1. Strength resistance/anaerobic training programme versus no exercise programme.

Table 171

Summary clinical evidence profile: Comparison 2.1. Strength resistance/anaerobic training programme versus no exercise programme.

Table 172. Summary clinical evidence profile: Comparison 2.2. Strength/anaerobic training programme versus aerobic training programme.

Table 172

Summary clinical evidence profile: Comparison 2.2. Strength/anaerobic training programme versus aerobic training programme.

Table 173. Summary clinical evidence profile: Comparison 3. High-intensity interval training versus standard aerobic and anaerobic exercise programme.

Table 173

Summary clinical evidence profile: Comparison 3. High-intensity interval training versus standard aerobic and anaerobic exercise programme.

Table 174. Summary clinical evidence profile: Comparison 4. Inspiratory muscle training (IMT) at 80% of maximal effort versus usual care.

Table 174

Summary clinical evidence profile: Comparison 4. Inspiratory muscle training (IMT) at 80% of maximal effort versus usual care.

Table 175. Summary clinical evidence profile: Comparison 5. Combined aerobic and anaerobic training programme versus no exercise programme.

Table 175

Summary clinical evidence profile: Comparison 5. Combined aerobic and anaerobic training programme versus no exercise programme.

Table 176. Summary clinical evidence profile: Comparison 6. Combined inspiratory muscle training (IMT), resistance and aerobic training.

Table 176

Summary clinical evidence profile: Comparison 6. Combined inspiratory muscle training (IMT), resistance and aerobic training.

10.8.5. Economic evidence

No economic evaluations of exercise programmes were identified in the literature search conducted for this guideline. Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

This review question was not prioritised for de novo economic modelling. However, the exercise programmes under consideration vary in the resources and costs required, for example habitual exercise programmes could be incorporated into daily activities, whereas programmes monitored and facilitated by exercise psychologists, therapy technical instructors or physiotherapists can entail high staff costs, especially if they are performed regularly.

According to NHS Reference Costs 2015/16 the cost per attendance with a sport and exercise therapist is £94 (WF02A, Non-Admitted Face to Face Attendance, Follow-up, Non-consultant led, 325, Sport and Exercise Medicine) and the cost per attendance with a physiotherapist is £45 (WF02A, Non-Admitted Face to Face Attendance, Follow-up, Non-consultant led, 650, Physiotherapy). Consequently, supervised programmes that incur high staff costs will need to provide additional benefits, in relation to unsupervised programmes to be considered cost-effective.

10.8.6. Evidence statements

10.8.6.1. Aerobic exercise programmes

10.8.6.1.1. Comparison 1. Aerobic exercise training programme versus no exercise programme
Lung function: FEV1

Low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending a supervised hospital training programme – consisting of aerobic exercise – and those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 2 RCTs showed conflicting results in relation to the difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – and the participants in the control group at 3 months follow-up. One RCT with 34 children and young people with cystic fibrosis showed no clinically significant difference between the groups. One RCT with 24 participants with cystic fibrosis aged >12 years showed a clinically significant improvement in the group of participants receiving an unsupervised training programme–consisting of aerobic exercise-compared to the participants in the control group.

Likewise, low quality evidence from 1 RCT with 25 people with cystic fibrosis >12 years showed a clinically significant improvement in lung function (measured as change in FEV1 % predicted) in the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – compared to the participants in the control group at 6 months follow-up.

However, moderate quality evidence from 1 RCT with 65 people with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving an unsupervised home exercise programme – consisting of aerobic training – and the participants in the control group at 3 years follow-up.

Lung function: FVC

Low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in forced vital capacity (measured as change in FVC % predicted) between the group of participants attending a supervised hospital training programme – consisting of aerobic exercise – and those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 2 RCTs showed conflicting results in relation to the difference in forced vital capacity (measured as change in FVC % predicted) between the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – and the participants in the control group at 3 months follow-up. One RCT with 34 children and young people with cystic fibrosis showed no clinically significant difference between the groups. One RCT with 24 participants with cystic fibrosis aged >12 years showed a clinically significant improvement in the group of participants receiving an unsupervised training programme–consisting of aerobic exercise-compared to the participants in the control group.

Likewise, low quality evidence from 1 RCT with 25 people with cystic fibrosis >12 years showed a clinically significant improvement in forced vital capacity (measured as change in FVC % predicted) in the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – compared to the participants in the control group at 6 months follow-up.

Low quality evidence from 1 RCT with 65 people with cystic fibrosis showed a clinically significant improvement in forced vital capacity (measured as change in FVC % predicted) in the group of participants receiving an unsupervised home exercise programme – consisting of aerobic training – compared to the participants in the control group at 3 years follow-up.

VO2 max

Moderate quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed a clinically significant improvement in the maximum volume of oxygen (measured as change in VO2 max) in the group of participants attending a supervised hospital training programme – consisting of aerobic exercise – compared those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 2 RCTs showed conflicting results in relation to the difference in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – and the participants in the control group at 3 months follow-up. One RCT with 34 children and young people with cystic fibrosis showed no clinically significant difference between the groups. One RCT with 25 participants with cystic fibrosis aged >12 years showed a clinically significant improvement in the group of participants receiving an unsupervised training programme–consisting of aerobic exercise-compared to the participants in the control group.

However, low quality evidence from 1 RCT with 25 people with cystic fibrosis >12 years showed a clinically significant improvement in the maximum volume of oxygen (measured as change in VO2 max) in the group of participants receiving an unsupervised training programme – consisting of aerobic exercise – compared to the participants in the control group at 6 months follow-up.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition

Very low quality evidence from 1 RCT with 25 people with cystic fibrosis >12 years showed no clinically significant difference in weight (measured as change in BMI) between the participants receiving an unsupervised training programme – consisting of aerobic exercise – and the participants in the control group at 3 and 6 months follow-up.

No evidence was found for supervised training programmes.

Quality of life

No evidence was found for this critical outcome.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.2. Strength resistance training/anaerobic training

10.8.6.2.1. Comparison 2.1. Strength resistance / anaerobic training programme versus no exercise programme
Lung function: FEV1

Low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed a clinically significant improvement in lung function (measured as change in FEV1 % predicted) in the group of participants attending a supervised hospital training programme – consisting of anaerobic exercise – compare to those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

Low quality evidence from 1 RCT with 21 people with cystic fibrosis >12 years showed a clinically significant improvement in lung function (measured as change in FEV1 % predicted) in the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – compared to the control group at 3 and 6 months follow-up.

Lung function: FVC

Very low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in forced vital capacity (measured as change in FVC % predicted) between the group of participants attending a supervised hospital training programme – consisting of anaerobic exercise – and those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

However, low to very low quality evidence from 1 RCT with 21 people with cystic fibrosis >12 years showed a clinically significant improvement in forced vital capacity (measured as change in FVC % predicted) in the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – compared to the control group at 3 and 6 months follow-up.

VO2 max

Very low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending a supervised hospital training programme – consisting of anaerobic exercise – and those who received usual care at hospital discharge (mean follow-up ≈ 19 days).

Low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis with stable disease showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the participants attending a supervised anaerobic training programme and the control group at 3 months follow-up. However, very low quality evidence from 1 RCT with 21 people with cystic fibrosis >12 years showed a clinically significant improvement between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – and the control group at the same follow-up. Very low quality evidence from the pooled results of both supervised and unsupervised training programmes showed a clinically significant beneficial effect in VO2 max in the group of participants attending the training programme at 3 months follow-up-.

Very low quality evidence from 1 RCT with 18 people with cystic fibrosis >12 years showed a clinically significant improvement in the maximum volume of oxygen (measured as change in VO2 max) in the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – compared to the control group at 6 months follow-up.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition: BMI

Low quality evidence from 1 RCT with 25 people with cystic fibrosis >12 years showed a clinically significant improvement in weight (measured as change in BMI) in the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – compared to the control group at 3 and 6 months follow-up.

Quality of life

Very low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis with stable disease showed no clinically significant difference in health related quality of life (measured with the CFQ-R tool, physical domain) between the participants attending a supervised anaerobic training programme and the control group at 3 months follow-up.

No evidence was found for supervised training programmes.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.2.2. Comparison 2.2. Strength/anaerobic training programme versus aerobic training programme
Lung function: FEV1

Low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending a supervised hospital anaerobic exercise training programme and those attending a supervised hospital aerobic exercise training programme at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 1 RCT with 26 people with cystic fibrosis >12 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions–and those attending an unsupervised aerobic programme at 3 and 6 months follow-up. Likewise, very low quality evidence from 1 RCT with 56 children and young people with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending a supervised anaerobic training programme - consisting of upper-body strength regime – and the participants attending an aerobic training programme at 6 months follow-up. Very low quality evidence from pooled results of both supervised and unsupervised training programmes showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending an anaerobic training programme and those attending an aerobic training programme at 6 months follow-up.

Very low quality evidence from 1 RCT with 56 children and young people with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants attending a supervised anaerobic training programme - consisting of upper-body strength regime – and the participants attending an aerobic training programme at 12 months follow-up.

Lung function: FVC

Very low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed no clinically significant difference in lung function (measured as change in FVC % predicted) between the group of participants attending a supervised hospital anaerobic exercise training programme and those attending a supervised hospital aerobic exercise training programme at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 1 RCT with 26 people with cystic fibrosis >12 years showed no clinically significant difference in lung function (measured as change in FVC % predicted) between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions–and those attending an unsupervised aerobic programme at 3 and 6 months follow-up.

VO2 max

Low quality evidence from 1 RCT with 44 children and young people with cystic fibrosis admitted to hospital due to a pulmonary exacerbation showed a clinically significant lower improvement in the maximum volume of oxygen (measured as change in VO2 max) in the group of participants attending a supervised hospital anaerobic exercise training programme compared to those attending a supervised hospital aerobic exercise training programme at hospital discharge (mean follow-up ≈ 19 days).

Very low quality evidence from 1 RCT with 26 people with cystic fibrosis >12 years showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions–and those attending an unsupervised aerobic programme at 3 months follow-up.

Very low quality evidence from 1 RCT with 26 people with cystic fibrosis >12 years showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions–and those attending an unsupervised aerobic programme at 6 months follow-up. Likewise, very low quality evidence from 1 RCT with 56 children and young people with cystic fibrosis showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending a supervised anaerobic training programme - consisting of upper-body strength regime – and the participants attending a supervised aerobic training programme at 6 months follow-up. Low quality evidence from the pooled results of both supervised and unsupervised training programmes showed no clinically significant difference in in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending an anaerobic training programme and those attending an aerobic training programme at 6 months follow-up.

Very low quality evidence from 1 RCT with 56 children and young people with cystic fibrosis showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the group of participants attending a supervised anaerobic training programme - consisting of upper-body strength regime – and the participants attending a supervised aerobic training programme at 12 months follow-up.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition

Very low quality evidence from 1 RCT with 30 people with cystic fibrosis >12 years showed no clinically significant difference in BMI between the group of participants attending an unsupervised anaerobic programme – consisting of strength training sessions – and those attending an unsupervised aerobic programme at 3 and 6 months follow-up.

No evidence was found for supervised exercise programmes.

Quality of life

No evidence was found for this critical outcome.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.3. High intensity interval training

10.8.6.3.1. Comparison 3. High intensity interval training versus standard aerobic and anaerobic exercise programme
Lung function: FEV1

Very low quality evidence from 1 cohort study with 43 adult inpatients with cystic fibrosis with severe disease (FEV1 <40% predicted) showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants performing supervised high intensity interval training and the participants performing a supervised standardised exercise programme at 6 week follow-up.

No evidence was found for unsupervised training programmes.

Lung function: vital capacity (VC)

Very low quality evidence from 1 cohort study with 43 adult inpatients with cystic fibrosis with severe disease (FEV1 <40% predicted) showed no clinically significant difference in vital capacity (measured as change in VC % predicted) between the group of participants performing supervised high intensity interval training and the participants performing a supervised standardised exercise programme at 6 week follow-up.

No evidence was found for unsupervised training programmes.

VO2 max

Very low quality evidence from 1 cohort study with 43 adult inpatients with cystic fibrosis with severe disease (FEV1 <40% predicted) showed no clinically significant difference in the maximum volume of oxygen (VO2 max) between the group of participants performing supervised high intensity interval training and the participants performing a supervised standardised exercise programme at 6 week follow-up.

No evidence was found for unsupervised training programmes.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition: BMI

Very low quality evidence from 1 cohort study with 43 adult inpatients with cystic fibrosis with severe disease (FEV1 <40% predicted) showed no clinically significant difference in BMI between the group of participants performing supervised high intensity interval training and the participants performing a supervised standardised exercise programme at 6 week follow-up.

No evidence was found for unsupervised training programmes.

Quality of life

No evidence was found for this critical outcome.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.4. Inspiratory muscle training

10.8.6.4.1. Comparison 4. Inspiratory muscle training (IMT) at 80% of maximal effort versus usual care
Lung function: FEV1

Low quality evidence from 1 RCT with 19 adults with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the group of participants receiving IMT at home at 80% of maximal inspiratory effort and the participants receiving usual care at 2 to 6 months follow-up.

Lung function: FVC

Low quality evidence from 1 RCT with 19 adults with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FVC % predicted) between the group of participants receiving IMT at home at 80% of maximal inspiratory effort and the participants receiving usual care at 2 to 6 months follow-up.

VO2 max

No evidence was found for this important outcome.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition

No evidence was found for this important outcome.

Quality of life

No evidence was found for this critical outcome.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.5. Combined programmes

10.8.6.5.1. Comparison 5. Combined aerobic and anaerobic training versus no exercise programme
Lung function: FEV1

Low quality evidence from 3 RCTs with 89 people with cystic fibrosis aged ≥7 years showed no clinically significant difference in lung function (measured as change in FEV1 % predicted) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and anaerobic exercises - and the participants in the control group at 3 months follow-up.

Likewise, very low quality evidence from another RCT with 35 people with cystic fibrosis >12 years showed no clinically significant difference in change in FEV1 % predicted between the participants attending an unsupervised training programme - consisting of a combination of endurance-type and strengthening exercises - and the control group at 3 to 6 months follow-up.

No evidence was found for supervised training programmes.

Lung function: FVC

Likewise, low quality evidence from 3 RCTs with 89 people with cystic fibrosis >7 years old showed no clinically significant difference in forced vital capacity (measured as change in FVC % predicted) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and anaerobic or resistance training exercises - and the participants in the control group at 3 months follow-up.

Likewise, very low quality evidence from another RCT with 35 people with cystic fibrosis >12 years showed no clinically significant difference in change in FVC % predicted between the participants attending an unsupervised training programme - consisting in a combination of endurance-type and strengthening exercises - and the control group at 3 to 6 months follow-up.

No evidence was found for supervised training programmes.

VO2 max

Very low quality evidence from 1 RCT with 14 adults with cystic fibrosis showed no clinically significant difference in maximum volume of oxygen (measured as change in VO2 max) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and resistance training exercise- and the participants in the control group at 3 months follow-up.

Low quality evidence from 1 RCT with 38 people with cystic fibrosis >12 years showed no clinically significant difference in the maximum volume of oxygen (measured as change in VO2 max) between the participants attending an unsupervised training programme - consisting in a combination of endurance-type and strengthening exercises - and the participants in the control group at 3 to 6 months follow-up.

No evidence was found for supervised training programmes.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition: weight and BMI

Very low quality evidence from 1 RCT with 14 adults with cystic fibrosis showed no clinically significant difference in weight (measured as change in kg) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and resistance training exercise- and the participants in the control group at 3 months follow-up.

Very low quality evidence from 1 RCT with 14 adults with cystic fibrosis showed no clinically significant difference in weight (measured as change in BMI) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and resistance training exercise- and the participants in the control group at 3 months follow-up.

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis >12 years showed no clinically significant difference in weight (measured at change in BMI) between the participants attending an unsupervised training programme - consisting of a combination of endurance-type and strengthening exercises - and the participants in the control group at 3 to 6 months follow-up.

Likewise, very low quality evidence from another RCT with 48 adults with cystic fibrosis showed no clinically significant difference between the participants attending an unsupervised training programme – consisting of general aerobic exercises and weight training – and the participants in the control group at 12 months follow-up.

No evidence was found for supervised training programmes.

Quality of life

Low to very low quality evidence from 1 RCT with 14 adults with cystic fibrosis showed no clinically significant difference in the following quality of life domains (measured as change in the scores obtained with CFQ-R questionnaire) between the participants attending an unsupervised training programme - consisting of a combination of aerobic and resistance training exercise- and the participants in the control group at 3 months follow-up: physical functioning, vitality, emotional state, eating disturbances, treatment burden, health perception, social limitations, body image, role limitations, weight problems, respiratory symptoms. The same evidence showed a clinically significant improvement in the quality of life domain digestion symptoms among the participants attending the training programme compared to the control group at 3 months follow-up.

Low quality evidence from 1 RCT with 22 children and young people with cystic fibrosis showed no significant difference in quality of life (measured with CFQ-R children’s and parents’ scales) between the participants attending a supervised intra-hospital exercise programme – consisting of endurance and strengthening exercises - and the control group at 2 months follow-up. The clinical significance of these outcomes could not be calculated.

Likewise, moderate quality evidence from 1 RCT with 41 participants with cystic fibrosis >16 years showed no significant difference in quality of life (measured with CFQ-R questionnaire, all domains) between the participants attending an unsupervised home-based exercise programme – consisting of aerobic and muscle strengthening exercises – and the control group at 3 months follow-up. The clinical significance of these outcomes could not be calculated.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

Low quality evidence from 1 RCT with 22 children with cystic fibrosis showed that none of the participants attending a supervised training programme - consisting of endurance and strengthening exercises – experienced an adverse event at 2 months follow-up.

No evidence was found for unsupervised training programmes.

10.8.6.5.2. Comparison 6. Combined inspiratory muscle training, resistance and aerobic training versus no exercise programme
Lung function: FEV1

Low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis showed no clinically significant difference in lung function (measured as change in FEV1 litres) between the participants attending a supervised training programme - consisting of a combination of inspiratory muscle training, resistance and aerobic training - and the participants in the control group at 2 months follow-up.

No evidence was found for unsupervised training programmes.

Lung function: FVC

Very low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis showed no clinically significant difference in forced vital capacity (measured as change in FVC litres) between the participants attending a supervised training programme - consisting of a combination of inspiratory muscle training, resistance and aerobic training - and the participants in the control group at 2 months follow-up.

No evidence was found for unsupervised training programmes.

VO2 max

No evidence was found for this important outcome.

Time to next exacerbation

No evidence was found for this critical outcome.

Body composition: weight

Very low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis showed no clinically significant difference in weight change (measured in kg) between the participants attending a supervised training programme - consisting of a combination of inspiratory muscle training, resistance and aerobic training - and the participants in the control group at 2 months follow-up.

No evidence was found for unsupervised training programmes.

Quality of life

Low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis showed no significant difference in quality of life (measured with CFQ-R questionnaire) between the participants attending a supervised training programme – consisting of a combination of inspiratory muscle training, resistance and aerobic training - at 2 months follow-up. The clinical significance of this outcome could not be calculated.

No evidence was found for unsupervised training programmes.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

Low quality evidence from 1 RCT with 20 children and young people with cystic fibrosis showed that none of the participants attending a supervised training programme - consisting of a combination of inspiratory muscle training, resistance and aerobic training – experienced an adverse event at 2 months follow-up.

No evidence was found for unsupervised training programmes.

10.8.6.6. Habitual physical activity

10.8.6.6.1. Comparison 7. Physical activity: higher amount or longer duration versus lower amount or shorter duration
Lung function: FEV1

No evidence was found for this critical outcome.

Lung function: FVC

No evidence was found for this important outcome.

VO2 max

No evidence was found for this important outcome.

Need of hospitalization (proxy outcome for time to next exacerbation)

Very low quality evidence from a cohort study with 61 adults with cystic fibrosis showed no clinically significant difference in need for hospitalization between the group of people doing at least 30 minutes daily of moderate-vigorous physical activity compared to those doing less physical activity at 12 months follow-up. The same evidence showed that there was no clinically significant difference in need for hospitalization between the group that did at least 30 minutes of moderate-vigorous physical activity per day accumulated in bouts of more than 10 minutes and those who did less than 30 minutes daily or did more than 30 minutes but in shorter bouts at 12 months follow-up.

Body composition

No evidence was found for this important outcome.

Quality of life

No evidence was found for this critical outcome.

Preference for training programme

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

10.8.6.7. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.8.7. Evidence to recommendations

10.8.7.1. Relative value placed on the outcomes considered

The aim of this review was to determine the effectiveness of different exercise programmes in improving health outcomes for people with cystic fibrosis.

The committee chose lung function (FEV1), quality of life and time to next exacerbation as critical outcomes for decision making. Forced vital capacity (FVC), maximum volume of oxygen (VO2), body composition, preference for training programme and adverse events were rated as important.

10.8.7.2. Consideration of clinical benefits and harms

The committee reviewed the evidence on the effectiveness of aerobic exercise programmes compared to no exercise programme. The evidence was of moderate to very low quality. The evidence showed that these programmes were mostly effective in relation to FVC % predicted and VO2 max, results were mixed in relation to FEV1 % predicted or the evidence showed no benefits in relation to BMI. No evidence was found in relation to the other outcomes including adverse events. The committee concluded that the evidence showed some benefit of aerobic exercise programmes and there was no evidence of harm.

The committee reviewed the evidence on programmes of strength resistance or anaerobic training compared to no exercise programme. The evidence was of low to very low quality. The evidence showed that these programmes were mostly effective in relation to FEV1 % predicted, VO2 max and body composition. Results were mixed in relation to FVC% predicted, the evidence showed no benefits in relation to quality of life. No evidence was found in relation to the other outcomes of interest including adverse events. The committee concluded that the evidence showed some benefit of strength resistance or anaerobic exercise programmes and there was no evidence of harm.

The committee reviewed the evidence on programmes of combined aerobic and anaerobic training compared to no exercise programme. The evidence was of moderate to very low quality and showed no benefits of training in relation to FEV1% predicted, FVC% predicted, VO2 max, BMI or quality of life. This kind of training did not lead to an increase in adverse events.

Overall, the committee noted that the evidence showed some benefits for lung function and no harm of aerobic, strength resistance or anaerobic training. In addition to these benefits for lung function, the committee agreed that people with cystic fibrosis would also gain the same kind of fitness benefits from exercise that would be gained by the general population. Therefore, the committee decided to recommend to advise people with cystic fibrosis of the benefits of regular exercise in relation to lung function in addition to the expected fitness benefits.

The committee reviewed the evidence on the effectiveness of a strength resistance or anaerobic training programme compared to an aerobic training programme. The evidence was of very low quality and showed no differences in relation to FEV1 % predicted and VO2 max. No evidence was found in relation to the other outcomes. Therefore, the committee decided not to recommend one type of exercise over another. Rather, they decided to recommend to offer all people with cystic fibrosis individualised exercise programmes which take into account the capability and preferences of the person. The committee noted that taking someone’s preferences into account is key to increase the likelihood of adherence to a training programme.

The committee reviewed the evidence on high intensity interval training compared to a standard exercise programme. The evidence was of very low quality and was based on a population of inpatients with FEV1 <40% predicted. The evidence showed no benefits in relation to FEV1% predicted, VC% predicted, VO2 max or BMI. No evidence was found in relation to the other outcomes including adverse events.

The committee reviewed the evidence on inspiratory muscle training (IMT) at 80% of maximal effort compared to usual care. The evidence was of low quality and showed no benefits in relation to FEV1% predicted and FVC% predicted. No evidence was found in relation to the other outcomes including adverse events.

The committee reviewed the evidence on a programme of combined IMT, resistance and aerobic training compared to no exercise programme. The evidence was of low to very low quality. The evidence showed no benefits in relation to FEV1, FVC, weight or quality of life. This kind of training did not lead to an increase in adverse events.

Given that the evidence on the 3 aforementioned training programmes did not show benefits or harm, and was of low to very low quality, the committee chose not to make a recommendation specific to these kinds of training.

The committee agreed that they could not draw a clear conclusion from the evidence on whether supervised programmes were more effective than unsupervised programmes. Therefore, they decided not to make a recommendation on this. They recommended, however, to regularly monitor exercise programmes at clinic visits so that they can be adapted as necessary. They noted that regular exercise testing is an important part of monitoring.

The committee noted that there was no evidence on what intensity or frequency of exercise would be the most effective. Therefore, they decided not to make a recommendation specific to this.

10.8.7.3. Consideration of economic benefits and harms

People with cystic fibrosis are encouraged to participate in activity and exercise that is available to the general population, leading to no additional resource or cost use. However, the committee noted that there may be individuals who would benefit from more specialised advice.

According to the committee, exercise programmes for individuals with cystic fibrosis should be developed along with support of physiotherapy teams that specialise in cystic fibrosis who can provide regular monitoring and support. This enables exercise to complement existing airway clearance techniques and treatment regimens in order to maximise and support adherence. In turn, this will improve treatment effects which the committee believed would subsequently outweigh the cost of developing and maintaining those programmes.

From the clinical review, there was no strong evidence supervised programmes were more effective than unsupervised programmes or no programme. In light of this, the committee agreed that not all people with cystic fibrosis require supervised programmes. However, there may be times when supervision is important such as to help teach technique. In those cases, such as strength and resistance training, supervision is key to ensure the exercise is performed correctly to minimise injuries and maximise benefits. The committee stated that such initial costs would be negligible compared to the potential downstream costs from injuries and inactivity.

Given that not every person would benefit from supervised programmes, the committee agreed that physiotherapists must consider the opportunity cost of their time to supervise individuals. For those reasons, the committee agreed not to recommend supervised programmes as the level of supervision would be individualised.

The committee stated that patient preference is paramount to the success and sustainability of a programme. Therefore, despite higher costs, a programme could be considered cost-effective if it provides them with greater benefits than a cheaper programme. However, the committee noted that freely available activities would be trialled first. Following this, the committee did not want to specify the type or duration of exercise as this should be tailored to someone’s preferences and capabilities.

The committee agreed that offering all people with cystic fibrosis individualised exercise programmes would not lead to a change in clinical practice as physiotherapists and dietitians regularly review participation in exercise at each review. Therefore, recommendations to offer exercise programmes were prioritised to enforce the importance of exercise. Moreover, the committee advised the cost to create an individualised programme would be negligible compared to the benefits sustained exercise can provide.

Following this, the committee highlighted the importance of maintaining an exercise programme, even during inpatient care, to prevent any additional deteriorations in their health that could lead to additional costs, such as longer hospital stays. As a result, the committee prioritised a recommendation to offer inpatients the opportunity to exercise. The committee agreed that inpatients usually have poorer health than outpatients and, in their experience, are more at risk of adverse events. Therefore, supervised exercise would be more appropriate for some inpatients in order to prevent the downstream costs from unsupervised exercise that is potentially unsafe or ineffective.

The committee agreed that an assessment upon hospital admission by a physiotherapist, and any subsequent supervision, would not deviate from current clinical practice. However, the committee were concerned that not all hospitals have sufficient exercise facilities for people with cystic fibrosis or space to store exercise equipment. Their solution was not to build a “second” gym, but to provide a schedule that promotes cross-infection control measures for people with cystic fibrosis to access the facilities. Achieving those schedules may incur additional cleaning and equipment, and reduce the time facilities are available for patient use. For these reasons, hospitals should consider if their strategies to prevent cross-infection using existing exercise facilities outweighs the cost to provide additional space and equipment devoted to people with cystic fibrosis.

Overall, the committee advised that their recommendations were within the remit of specialist cystic fibrosis physiotherapy teams. However, they noted that staffing levels and exercise facilities during episodes of inpatient care need to be prioritised to allow exercise programmes to be continued.

10.8.7.4. Quality of evidence

The quality of the evidence presented in this review ranged from very low to moderate as assessed by GRADE.

For the domain risk of bias, the studies were assigned the same risk of bias as in the Cochrane reviews and were not individually reviewed. The main biases that led to downgrading the quality of the evidence were randomisation, allocation concealment, attrition, and reporting bias. It is important to note that it was not possible to blind participants to the exercise intervention in RCTs thus increasing the risk of performance bias.

In studies on unsupervised programmes it was not possible to independently assess if the participants actually performed the exercise programmes as prescribed.

Another factor which led to downgrading the quality of the evidence was the imprecision, as confidence intervals crossed 1 or 2 MIDs. The committee noted that many trials were underpowered to detect a clinically important difference.

No serious issues were found regarding inconsistency (heterogeneity), as most outcomes were reported by a single study. Where heterogeneity was identified, and sensitivity or subgroup analysis did not explain the source of inconsistency, the results were explained to the committee.

No serious issues were found regarding indirectness of the population or the interventions.

10.8.7.5. Other considerations

The committee noted the NHS service specifications for cystic fibrosis do not cover exercise in detail, although they mention that inpatients should have access to facilities for exercise.

No equality issues were identified by the committee for this review question.

The committee felt a research recommendation was not needed as there is enough available evidence to show that regular exercise is beneficial for people with cystic fibrosis.

10.8.7.6. Key conclusions

The committee concluded that regular exercise is especially beneficial for people with cystic fibrosis due to the benefits to lung function and other health benefits. Exercise programmes should be individualised to take into account personal circumstances and preferences given there is no evidence that a specific programme may be better than another. There is no evidence to indicate whether a supervised exercise programme may be better than an unsupervised programme, however, the programme should be regularly monitored and adapted if necessary. Inpatient stays should be used as opportunities to promote regular exercise. Appropriate supervision should be offered, if necessary, depending on individual circumstances. Moreover, access to appropriate exercise facilities should be guaranteed in the inpatient setting while taking into account local infection control guidelines.

10.8.8. Recommendations

126.

Advise people with cystic fibrosis and their family members or carers (as appropriate) that regular exercise improves both lung function and overall fitness.

127.

Offer people with cystic fibrosis an individualised exercise programme, taking into account their capability and preferences.

128.

Regularly review exercise programmes to monitor the person’s progress and ensure that the programme continues to be appropriate for their needs.

129.

Provide people with cystic fibrosis who are having inpatient care with:

  • an assessment of their exercise capacity
  • the facilities and support to continue their exercise programme (as appropriate), taking into account the need to prevent cross-infection (see Prevention of cross infection) and local infection control guidelines.

10.9. Psychological assessment

Review question: What strategies are effective at identifying people with cystic fibrosis for the presence of a psychological and behavioural problem?

10.9.1. Introduction

The emotional impact of a diagnosis of cystic fibrosis is significant. Without appropriate psychological guidance, people with cystic fibrosis, their families and carers can find the impact extends to their interpersonal relationships, health and quality of life. It is known that physical health outcomes can be improved if psychological distress is prevented or reduced.

Clinical psychologists with expert knowledge of cystic fibrosis can offer strategies to identify psychological and behavioural problems. They can provide interventions to prevent mental health symptoms from developing into intractable mental health diagnoses.

Clinical psychologists, as members of the specialist cystic fibrosis multidisciplinary team, can hold in mind any likely impact of cystic fibrosis treatments on emotional functioning and the key triggers for potential distress. Vice versa, emotional difficulties for other reasons can impact on cystic fibrosis treatments. Clinical psychologists can offer a preventative model of working, by offering strategies to colleagues, people with cystic fibrosis or family and carers to explore their emotional wellbeing. If necessary the clinical psychologist can offer further assessment and intervention, or facilitate onward referral for severe mental health conditions which may, or may not, be attributable to the diagnosis of cystic fibrosis.

The role of the psychologist is to promote psychological health and likely psychological and behavioural issues are; adherence, procedural-anxiety and phobias, difficulties with engagement with health care team, adjustment to diagnosis or deteriorated function, self-esteem problems, anger management, relationship difficulties, sleep problems, body image or eating issues, medical trauma, substance misuse, generalised anxiety disorders, low mood and depression. The clinical psychologist can also play a role in identifying whether other challenges of a psychological nature (for example school absence or tics) may be wholly or partially attributable to having a chronic health condition or not.

10.9.2. Description of clinical evidence

The aim of this review was to determine which assessment strategies are effective at identifying psychological, behavioural and adherence problems in children, young people and adults with cystic fibrosis.

The committee identified the following tools as relevant for this review (See Table 178 for full a description of the tools).

Table 178. Description of tools assessed.

Table 178

Description of tools assessed.

  • Generalised Anxiety Disorder 7-item scale (GAD-7)
  • Patient Health Questionnaire 2-item scale (PHQ-2)
  • Patient Health Questionnaire 9-item primary care scale (PHQ-9)
  • Hospital Anxiety and Depression Scale (HADS)
  • Paediatric Index of Emotional Distress (PI-ED)
  • Centre for Epidemiologic Studies Depression Scale (CES-D)
  • Eating Disorders Examination (EDE)
  • Child Eating Disorders Examination (CEDE, ChEDE)
  • Eating Attitudes Test (EAT)
  • Child Eating Attitude Test (ChEAT)

For the diagnostic accuracy data, the following reference standards were considered.

For psychological problems (including anxiety, depression, mood disorders, emotional distress, adjustment disorders and eating disorders), the reference standard diagnoses according to the Diagnostic and Statistical Manual of Mental Disorders (DSM) or International Classification of Diseases (ICD). Studies that did not clearly state the comparator to be DSM or ICD diagnosis of depression, or that did not provide sufficient diagnostic accuracy data, were excluded.

For adherence, electronic monitoring was considered the gold standard. Alternatively, pharmacy collection records were also considered a reference standard.

For other behavioural problems listed in the protocol (such as school phobia), the reference standard was considered as reported by the study.

We also included validation studies that looked at the validity and reliability of the tools.

We looked for systematic reviews of diagnostic studies, and prospective and retrospective cohort studies.

For this review, quality appraisal of the evidence has been conducted by study.

For full details see review protocol in Appendix D.

Four studies were identified for inclusion in this review.

One study (Shearer 2014) aimed to evaluate the CEDE for the assessment of eating disorders in children with cystic fibrosis. The study was conducted in the UK and included 55 children and young people.

Three studies (Daniels 2011, Siracusa 2015, White 2014) aimed to determine what assessments are effective in measuring adherence to treatment in children, young people and adults with cystic fibrosis. These studies were conducted in the UK and the USA. Sample sizes ranged from 12 to 250.

None of the studies looked at tools assessing anxiety, depression, mood and emotional distress or adjustment disorders.

A summary of the included studies is presented in Table 159 and Table 180. See also study selection flow chart in Appendix F, study evidence tables in Appendix G, and list of excluded studies in Appendix H.

Table 180. Summary of included studies and results for adherence to treatment.

Table 180

Summary of included studies and results for adherence to treatment.

10.9.3. Summary of included studies and results

A summary of the included studies and results for this review is presented in Table 159 and Table 180.

Table 179. Summary of included studies and results for psychological problems.

Table 179

Summary of included studies and results for psychological problems.

10.9.4. Clinical evidence profile

See summary of results in Table 159 and Table 180 in Summary of included studies and results.

10.9.5. Economic evidence

No economic evaluations of psychological and behavioural assessments were identified in the literature search conducted for this guideline and this review question was not prioritised for de novo economic modelling.

Full details of the search and economic article selection flow chart can be found in Appendix E and F, respectively.

10.9.6. Evidence statements

10.9.6.1. Psychological disorders

10.9.6.1.1. Anxiety
Generalised Anxiety Disorder 7-item scale (GAD-7)

No evidence was found for this tool.

Hospital Anxiety and Depression scale (HADS)

No evidence was found for this tool.

10.9.6.1.2. Depression, mood disorders and emotional distress
Centre for Epidemiologic Studies Depression Scale (CES-D)

No evidence was found for this tool.

Hospital Anxiety and Depression scale (HADS)

No evidence was found for this tool.

Patient Health Questionnaire 2-item scale (PHQ-2)

No evidence was found for this tool.

Patient Health Questionnaire 9-item scale (PHQ-9)

No evidence was found for this tool.

Paediatric Index of Emotional Distress (PI-ED)

No evidence was found for this tool.

10.9.6.1.3. Adjustment disorders

No evidence was found for this disorder.

10.9.6.1.4. Eating disorders and feeding issues
Eating attitudes test (EAT)

No evidence was found for this tool.

Child eating attitudes test (ChEAT)

No evidence was found for this tool.

Eating disorders examination (EDE)

No evidence was found for this tool.

Child eating disorders examination (CEDE)

One study reported on the usefulness of the CEDE scale in a population of 55 children and young people with cystic fibrosis not receiving psychological treatment. Inter-rater reliability ranged from 0.69 to 1. No measures of validity were reported. This overall quality of this study was moderate.

10.9.6.2. Non adherence to treatment

One study reported on the usefulness of self-report and clinician-report as measures of adherence in a population of 78 adults with cystic fibrosis on nebulizer therapy:

  • there was an overestimation of adherence by the participants. No measures of reliability were reported;
  • there was an overestimation of adherence by the clinicians. The intra-class correlation agreement ranged between 0.28 and 0.54.

No measures of validity were reported. It is important to note that extreme inaccuracy was observed for individual participants by clinicians and self-report adherence. This overall quality of this study was moderate.

One study reported on the usefulness of self-report and pharmacy refill history as measures of adherence in a population of 12 children, young people and adults with cystic fibrosis receiving Ivacaftor:

  • there was an overestimation of adherence by the participants. There was no statistically significant correlation between overall electronic-monitoring adherence and self-report (intra-class correlation coefficient was 0.14);
  • there was an overestimation of adherence by the pharmacy records. There was also no statistically significant correlation between overall electronic-monitoring adherence and pharmacy refill history (intra-class correlation coefficient was 0.26).
  • No measures of validity were reported. It is important to note that individuals demonstrated wide variability in regards to the different measures of adherence. The overall quality of this study was low, mainly because it was underpowered.

One study reported on the usefulness of self-report (using the CFQ-R tool) as a measure of adherence to treatment in a population of 250 young people and adults with cystic fibrosis:

  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to aerosol to open air (r=0.34);
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to aerosol to thin mucus (r=0.51);
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to inhalers (r=0.51);
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to PERT (r=0.45);
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to oral nutritional supplements (r=0.51);
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to oral antibiotics (r=0.51).
  • there was a statistically significant correlation between pharmacy script collection and self-report adherence to nebulised antibiotics (r=0.55).

The overall quality of this study could not be assessed, as the information was extracted from a conference abstract. Full publication not available.

10.9.6.3. Economic evidence statements

No evidence on cost-effectiveness in people with cystic fibrosis was available for this review.

10.9.7. Evidence to recommendations

10.9.7.1. Relative value placed on the outcomes considered

The aim of this review was to determine which assessment strategies are effective at identifying psychological, behavioural and adherence problems in children, young people and adults with cystic fibrosis.

Sensitivity and specificity of the tools were prioritised as critical outcomes for decision making. Positive likelihood ratio, negative likelihood ratio, AUROC, and reliability or validity were rated as important outcomes.

10.9.7.2. Consideration of clinical benefits and harms

The committee agreed the limited available evidence was not helpful in guiding them to make recommendations.

The committee discussed the issue of adherence at length. They noted adherence is an overarching issue in this guideline and should not fall under the category of psychological or behavioural disorder or problem. To reflect this, results for adherence were presented separately in this review.

The results from this review showed that there is poor correlation between what participants or professionals report, and what is actually taken. Likewise, there was poor correlation between what it is collected and what it is actually taken. According to the committee, these results are consistent with clinical practice. The committee noted that adherence is extremely difficult to measure in both clinical practice and research, unless a particular objective measuring tool is employed (for example electronic monitoring or pharmacy records), which is rare in routine clinical practice. The evidence used 2 different methods for electronic monitoring as reference standards to measure adherence: the I-neb was used in one study and the Medication Event Monitoring System (MEMS) was used in another study; however the committee noted that the I-neb is by far the commonest in the UK. The committee stressed that adherence problems are common in people with chronic conditions, and those with a number of concurrent treatments, and are not specific to cystic fibrosis. They agreed that the overarching principles from the NICE guidance on Medicines adherence: involving patients in decisions about prescribed medicines and supporting adherence [CG76] is applicable to people with cystic fibrosis. Therefore, the committee decided not to make a recommendation specific to measuring adherence in cystic fibrosis care. The committee felt no specific recommendations could be made regarding assessment tools as no evidence was found. They highlighted there are no available tools specific to people with cystic fibrosis. They noted that, although assessment tools are helpful to assess the severity of the psychological or behavioural disorder, in practice psychologists are able to intervene without a formal diagnosis. Therefore, although a case findingtool for psychological problems in cystic fibrosis would help, all people and families should be seen regularly by a psychologist..

The committee noted that routine psychological support is important to improve outcomes in a chronic and life-threatening illness. Early psychological support can improve adherence to long-term medications in adolescence, which is a major determinant of life expectancy. Following this discussion, the committee agreed a psychologist with expertise in cystic fibrosis should be an integral member of the multi-disciplinary team. They agreed people with cystic fibrosis should be seen by the psychologist as part of the annual review. However, all members in the multidisciplinary team should be aware of how to identify psychological and behavioural problems.

The committee agreed that people with cystic fibrosis should have a specialist clinical psychologist review as part of the annual review to identify psychological and behavioural problems and offer advice. Moreover, the specialist clinical psychologist should assess and advise people with cystic fibrosis, and their families and carers, at cystic fibrosis clinical visits, inpatient admissions and for further outpatient consultations (such as community visits, school or social care meetings) or telephone calls when required.

The clinical psychologist should assess the needs of family members or carers (as appropriate) in relation to the impact of cystic fibrosis to support their psychological wellbeing and to facilitate onward referral. The committee noted that if psychological needs were more of an individual nature rather than related to cystic fibrosis, the clinical psychologist would refer the person to the GP who would then provide onward referral to a mental health practitioner, who would be part of the local mental health team. The clinical psychologist should also consider (in discussion with the family) Tier 2 referral or onward referral to local psychological wellbeing services for further support (for example with the school counsellor or CAMHS). The annual review should be individualised depending on the circumstances of the person. But as a general guidance it should cover aspects such as general mental health and quality of life, behavioural problems impacting on health outcomes, adherence to treatment, school attendance, friendship and social life. The annual review should also include assessment of any emerging indicators of psychosocial problems such as poor school attendance, family break up, anxious thoughts, low mood, missing treatments, financial or home management difficulties, safeguarding concerns, employment support needs or criminality. If a severe mental health condition is identified as part of the annual assessments such as psychosis, high level of risk of self-harm or need for psychiatric care, the person should be referred to a mental health practitioner, who would be part of the local mental health team. This would normally involve a “stepping up” of care into specialist mental health services. This is already consistent with current practice. Detailed guidance on identification and management for specific mental health conditions can be found at other NICE guidelines (For example, the following guidelines on common mental health problems: Identification and pathways to care [CG123], Depression in children and young people [CG28], Depression in adults [CG90], Depression in adults with a chronic physical health problem: recognition and management [CG91], Generalised anxiety disorder and panic disorder in adults [CG113], Eating disorders in over 8s: management [CG9]; the following guidelines on social and emotional wellbeing: Social and emotional wellbeing: early years [PH40], Social and emotional wellbeing in primary education [PH12], Social and emotional wellbeing in secondary education [PH20]).

10.9.7.3. Consideration of economic benefits and harms

There will be a cost attached to the administration and interpretation of questionnaires such as the PI-ED. But the committee agreed that cost of the assessment would be negligible and outweighed if the assessment can improve identification and subsequent management. However, the committee stated that psychological and behavioural assessment tools are not validated for people with cystic fibrosis, who have a multi-system disorder and a lifetime of complex treatment schedules. Following this, the committee noted that the cost-effectiveness of a treatment can depend on adherence and provided examples when regimens become cost-ineffective, such as unused treatments which are followed with additional supplies, or treatments prescribed at higher doses, when the former was considered to be too low. To reduce those occurrences, the committee agreed that the overarching principles from the NICE guidance on Medicines adherence: involving patients in decisions about prescribed medicines and supporting adherence [CG76] should be followed.

The committee stated that the number of people with cystic fibrosis with psychological and behavioural problems is growing. One reason for this is the limited time psychologists have to take preventative measures. To reduce the high risk of missing emerging problems, the committee agreed psychologists should be available to see people with cystic fibrosis, and their family members or carers, at outpatient clinic visits and during inpatient admissions. The committee also agreed that the frequency of visits to the psychologist should be based on individual needs as it would be cost-ineffective to monitor each individual using the same schedule when the opportunity cost of the psychologist’s time is high.

Overall, the committee agreed that monitoring in addition to the annual review would promote a cost-effective use of resource as changes to a management strategy can occur sooner to reduce the negative effects psychological and behavioural problems entail. The committee also agreed that their recommendations would reinforce best practice and reduce geographical variation.

10.9.7.4. Quality of evidence

The studies included in the review aimed to establish the reliability and validity of assessment tools. The following were considered as the main criteria for assessing the quality of each study, as reported by Jerosch-Herold (2005).

  • Sample size
  • Sampling methodology
  • Blinding of raters
  • Statistical analysis

Main risk of bias in the included studies was little information given on whether observer or tester were appropriately trained or certified.

One study was only available as conference abstract and the quality could not be assessed.

In one study extreme inaccuracy was observed for individual participants by clinicians and self-report adherence. In another study, individuals demonstrated wide variability in regards to the different measures of adherence.

10.9.7.5. Other considerations

The committee discussed whether the cystic fibrosis psychologist should be available to meet people with cystic fibrosis and their families or carers at every cystic fibrosis clinic if necessary. They highlighted it is not happening in current practice. This is particularly the case in adult clinics because the number of psychologists have remained the same. This is despite the number of adult people with cystic fibrosis increasing. While this may lead to a resource impact, it was noted that early identification and intervention can help prevent more serious issues in the future.

The committee stated that when a psychologist is introduced at diagnosis stage as a natural member of the team (for example a nurse) people with cystic fibrosis and their carers are more likely to be accepting of this role.

The committee suggested some strategies effective at identifying the presence of psychological or behavioural problems.

  • Informal but frequent assessments by the psychologist and multidisciplinary team members by regularly asking questions about emotional wellbeing as well as physical health.
  • The team clinical psychologist can support the rest of the team in this by holding psychological wellbeing in mind, and supporting staff if they would like to think through the responses they get from patients (or family members), or provide training to staff on delivery of basic emotional support.
  • Ensure team clinical psychologist presence at patient case discussions of outpatients, inpatients, complex case meetings and annual review reports.
  • Annual assessment by clinical psychologist using face to face professional assessment and standardised measures of psychological wellbeing and mental health functioning.
  • Providing information to people with cystic fibrosis, and their family or carer, regarding psychology services and support available including easy access to services, including self-referral.
  • Increased access to clinical psychology and review of vulnerable groups and people at particularly complicated stages of cystic fibrosis. For example, newly diagnosed, mental health problems in parents or carers, substance misuse, pre- and post-transition, end stage illness, pregnancy and assisted conception, secondary diagnosis and referral for transplant.
  • Provide support for people with cystic fibrosis and training for staff around sensitive issues that may be difficult to discuss. In particular, anxieties relating to transplant decisions and people’s wishes for end-of-life care.

The committee discussed potential equality issues. They noted psychological problems may be more likely in people from lower socio-economic groups. However, they agreed care is available to all people so there was no need to draft additional recommendations.

The committee agreed there was a lack of evidence to determine the best objective measures of adherence. Difficulties with full adherence to all components of the cystic fibrosis daily treatment regimen were well documented and directly resulted in poor health outcomes. Studies indicated that reports of rates of adherence varied and so subjective measures were unreliable. The committee noted that the reference standards for measuring adherence are electronic monitoring or pharmacy records, and noted that the I-neb is the most commonly used method of electronic monitoring in the UK. There needed to be further research to understand the occasions when people with cystic fibrosis do and don’t follow prescribed recommendations, and which types of treatment are more likely to be taken than others. This would help adapt prescribed treatments to support increased likelihood of compliance. This would lead to better health outcomes. The area was not prioritised for a research recommendation but the committee wanted it noted.

The committee agreed a research recommendation around psychological assessment. As noted previously, there are no validated tools to assess psychological and behavioural problems in people with cystic fibrosis. The committee thought it would be useful to validate generic measures, for example for depression and anxiety. They noted that people with a long term physical health condition are more likely to present with psychological and mental health difficulties than people without. NHSE recommendations state that prevention of psychological problems is the most cost-effective service provision. This means that all people with cystic fibrosis must be routinely and regularly assessed for their physical health status and their mental health status. People with cystic fibrosis would benefit, therefore, in having a routine screen which would indicate those who require further psychological intervention. This would allow early intervention by a team psychologist to support maintenance of good quality of life, prevention of the development of mental health disorders and improvement in health outcomes as a result of improved wellbeing.

10.9.7.6. Key conclusions

The committee concluded that the cystic fibrosis psychologist should be an integral member of the multidisciplinary team and should be available to people with cystic fibrosis and their families or carers. A psychological and behavioural assessment should be part of the annual review. People should be referred to a mental health practitioner, who would be part of the local mental health team, if a severe mental health condition is identified.

10.9.8. Recommendations

130.

At the annual review, the specialist clinical psychologist should include assessments of:

  • general mental health and wellbeing
  • quality of life
  • any factors that are making treatment adherence difficult
  • indicators of emerging psychosocial problems
  • behaviours that affect health outcomes.

131.

If a severe mental health condition is identified at any assessment performed by the cystic fibrosis clinical psychologist, refer the person with cystic fibrosis to a mental health practitioner. For guidance on treating mental health conditions, refer to the relevant NICE guideline.

132.

For family members or carers of people with cystic fibrosis, the specialist clinical psychologist should

  • assess any cystic-fibrosis-related needs they have
  • support their psychological wellbeing
  • refer them to mental health practitioners as needed.

10.9.9. Research recommendations

6.

What is the most effective measure of psychological functioning to use as a test for thresholds of concern in people with cystic fibrosis?

Table 181. Research recommendations rationale.

Table 181

Research recommendations rationale.

Table 182. Research recommendation statements.

Table 182

Research recommendation statements.

Footnotes

7

At the time of publication (October 2017), appetite stimulants did not have a UK marketing authorisation for use in people with cystic fibrosis for this indication. The prescriber should follow relevant professional guidance, taking full responsibility for the decision. Informed consent should be obtained and documented. See the General Medical Council’s Prescribing guidance: prescribing unlicensed medicines for further information.

8

At the time of publication (October 2017), acid suppression agents did not have a UK marketing authorisation for use in people with cystic fibrosis for this indication. The prescriber should follow relevant professional guidance, taking full responsibility for the decision. Informed consent should be obtained and documented. See the General Medical Council’s Prescribing guidance: prescribing unlicensed medicines for further information.

9

At the time of publication (October 2017), ursodeoxycholic acid did not have a UK marketing authorisation for adults with cystic fibrosis for this indication. The prescriber should check individual brands for licensing in children and young people and follow relevant professional guidance, taking full responsibility for the decision. Informed consent should be obtained and documented. See the General Medical Council’s Prescribing guidance: prescribing unlicensed medicines for further information.

Copyright © NICE 2017.
Bookshelf ID: NBK535679

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