Lung function

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that a 5-point decrease in FEV₁% predicted was associated with a reduction in FEV₁% predicted at 10 years follow-up.

Clearance of the organism from the cultures

No evidence was found for this important outcome.

Pulmonary exacerbations

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that a 5-point decrease in FEV₁% predicted was associated with a higher rate of pulmonary exacerbations during the 10-year follow-up period.

Nutritional parameters

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Lung function

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that a 1-point increase in Brody chest CT score was associated with a reduction in FEV₁% predicted at 10-year follow-up.

Clearance of the organism from the cultures

No evidence was found for this important outcome.

Pulmonary exacerbations

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that a 1-point increase in Brody chest CT score was associated with a higher rate of pulmonary exacerbations during the 10-year follow-up period.

Nutritional parameters

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Lung function

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that there were no differences in the strengths of the association between the Brody chest CT score and FEV₁% predicted in 1999 with FEV₁% predicted in 2009. This result was reported narratively only.

Clearance of the organism from the cultures

No evidence was found for this important outcome.

Pulmonary exacerbations (proxy outcome for time to chronic infection)

Moderate quality evidence from 1 cohort study with 60 children with cystic fibrosis showed that a 1-point difference in the Brody chest CT score was more strongly associated with the rate of pulmonary exacerbations between 1999 and 2009 than a 5% predicted difference in FEV₁% predicted at the time of the chest CT. This result was reported narratively only.

Nutritional parameters

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Comparison 1. Monitoring using bronchoalveolar lavage (BAL) versus standard monitoring

Lung function

Moderate quality evidence from 1 RCT with 157 infants with cystic fibrosis <6 months showed no clinically significant difference between monitoring using BAL and standard monitoring for FEV₁ z scores at 5 years follow-up.

Clearance of the organism from the cultures

Moderate quality evidence from 1 RCT with 157 infants with cystic fibrosis <6 months showed no clinically significant difference between monitoring using BAL and standard monitoring for clearance of P aeruginosa following 1 or 2 courses of eradication therapy at 5 years follow-up.

Time to chronic infection

No evidence was found for this important outcome

Nutritional parameters

Low to moderate quality evidence from 1 RCT with 157 infants with cystic fibrosis <6 months showed no clinically significant difference in weight, height and BMI (measured as final z-scores) between monitoring using BAL and standard monitoring at 5 years follow-up.

Quality of life

No evidence was found for this important outcome

Lung function: FEV₁

Low quality evidence from 1 cross-over trial with 36 people with cystic fibrosis aged ≥8 years showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the group of participants receiving mannitol (420 mg twice daily) and those in the control group (non-respirable mannitol <2%) at 2 week follow-up.

Moderate quality evidence from 2 RCTs with 600 people with cystic fibrosis aged ≥6 years showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 2, 4 and 6 months follow-up. Data from these 2 RCTs was also available stratified by age subgroups and is presented below.

• Children and young people: Low quality evidence from 2 RCTs with 258 children and young people with cystic fibrosis aged ≥6 years showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 2, 4 and 6 months follow-up.
• Adults: Low quality evidence from 2 RCTs with 317 adults with cystic fibrosis showed no clinically significant difference in the lung function (measured as change in FEV1 % predicted) between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 2 and 4 months follow-up. However low quality evidence from the same studies showed a clinically significant increase in FEV₁ % predicted in the group of adults receiving mannitol compared to the control group at 6 months follow-up.

Time to next exacerbation

Low quality evidence from 2 RCTs with 600 people with cystic fibrosis aged ≥6 years showed no clinically significant difference in the time to first pulmonary exacerbation (protocol defined exacerbation) between the participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.

Number of people with protocol defined pulmonary exacerbations (proxy for time to next exacerbation)

Data from the 2 RCTs mentioned under the outcome “time to next exacerbation” did not provide data on time to next exacerbation stratified by age subgroups however data on the proxy outcome “number of people with protocol defined pulmonary exacerbations” was available stratified by age subgroups and is presented below.

• Children and young people: Low quality evidence from 2 RCTs with 259 children and young people with cystic fibrosis aged ≥6 years showed no clinically significant difference in the number of participants with protocol defined pulmonary exacerbations between those receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.
• Adults: Low quality evidence from 2 RCTs with 341 adults with cystic fibrosis showed no clinically significant difference in the number of participants with protocol defined pulmonary exacerbations between those receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.

Need for additional intravenous antibiotics for pulmonary exacerbation

Very low quality evidence from 2 RCTs with 600 people with cystic fibrosis ≥6 years showed no clinically significant difference in the number of people requiring intravenous antibiotics between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up. Moderate heterogeneity was observed between both trials. One trial (n=305) showed no clinically significant differences, whereas the other trial (n=295) showed that there was a clinically significant lower number of people who needed additional intravenous antibiotics in the mannitol group.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

Very low to moderate quality evidence from 2 RCTs with 600 people with cystic fibrosis ≥6 years showed no clinically significant difference in the quality of life (measured with CF-QOL respiratory, vitality, physical, emotion, eating, health, social, body, role, digestion and weight domains) between the participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 4 and 6 months follow-up.

Moderate to high heterogeneity was observed for the respiratory domain at 4 and 6 months, and for the physical, social and role domains at 6 months. In spite of the heterogeneity, both trials showed that the differences between groups were not clinically significant in either trial for the respiratory domain at 4 months, and for the physical and social domains at 6 months.

However, for the respiratory domain, 1 trial (n=278) showed a clinically significant improvement in the control group compared to the mannitol group, whereas the other trial (n=229) showed no clinically significant differences at 6 months follow-up.

Adverse events

Moderate quality evidence from 1 cross-over trial with 36 people with cystic fibrosis aged ≥8 years reported that none of the participants in the intervention group (Mannitol 420 mg twice daily) or the control group (non-respirable mannitol <2%) experienced mild haemoptysis at 2 week follow-up.

Very low quality evidence from the same trial with 36 people with cystic fibrosis aged ≥8 years showed no clinically significant difference in the occurrence of severe haemoptysis between the participants receiving Mannitol (420 mg twice daily) and those in the control group (non-respirable mannitol <2%) at 2 week follow-up.

Moderate quality evidence from 1 trial with 295 people with cystic fibrosis ≥6 years reported that none of the participants in the intervention group (Mannitol 400 mg twice daily) or in the control group (50 mg twice daily) experienced mild bronchospasm at 6 months follow-up.

Moderate quality evidence from the same 1 trial with 295 people with cystic fibrosis ≥6 years reported that 1 participant in the mannitol group experienced moderate bronchospasm, and 1 participant experienced severe bronchospasm in the mannitol group. No events of moderate or severe bronchospasm were observed in the control group at 6 months follow-up. These differences were not clinically significant. Data from this 1 RCT was also available stratified by age subgroups and is presented below.

• Children and young people: Moderate quality evidence from 1 RCT with 105 children and young people with cystic fibrosis showed that that none of the participants in the intervention group (Mannitol 400 mg twice daily) or in the control group (50 mg twice daily) experienced bronchospasm at 6 months follow-up.
• Adults: Very low quality evidence from 1 RCT with 190 adults with cystic fibrosis showed no clinically significant difference in the occurrence of bronchospasm between the participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.

Very low quality evidence from 2 trials with 600 people with cystic fibrosis ≥6 years showed no clinically significant differences in the occurrence of mild, moderate or severe haemoptysis between the participants receiving mannitol (420 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up. Data from these 2 RCTs was available stratified by age subgroups and is presented below.

• Children and young people: Very low quality evidence from 2 RCTs with 259 children and young people with cystic fibrosis aged ≥6 years showed no clinically significant difference in the occurrence of haemoptysis between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.
• Adults: Very low quality evidence from 2 RCTs with 341 adults with cystic fibrosis showed no clinically significant difference in the occurrence of haemoptysis between the group of participants receiving mannitol (400 mg twice daily) and those in the control group (mannitol 50 mg twice daily) at 6 months follow-up.

Lung function: FEV₁

Very low quality evidence from 1 cross-over trial with 20 children and young people with cystic fibrosis (mean age 13.2 years) showed no clinically significant difference in the lung function (measured as FEV₁ % change from baseline) between the group of participants receiving mannitol (400 mg twice daily) and the participants receiving dornase alfa (2.5 mg twice daily).

Time to next exacerbation

No evidence was found for this outcome.

Need for additional intravenous antibiotics for pulmonary exacerbation

No evidence was found for this outcome.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

No evidence was found for this outcome.

Adverse events

No evidence was found for this outcome.

Lung function: FEV₁

Very low quality evidence from 1 cross-over trial with 20 children and young people with cystic fibrosis (mean age 13.2 years) showed no clinically significant difference in the lung function (measured as FEV₁ % change from baseline) between the group of participants receiving a combination of mannitol (400 mg mannitol twice daily) and dornase alfa (2.5 mg twice daily) and the participants receiving dornase alfa alone (2.5 mg twice daily).

Time to next exacerbation

No evidence was found for this outcome.

Need for additional intravenous antibiotics for pulmonary exacerbation

No evidence was found for this outcome.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

No evidence was found for this outcome.

Adverse events

No evidence was found for this outcome.

Lung function: FEV₁

Very low quality evidence from 1 RCT with 41 people with cystic fibrosis aged >15 years showed a clinically significant improvement in lung function (measured as relative mean % change in FEV₁) in the group of participants receiving dornase alfa (2.5 mg twice daily) compared to those who were receiving placebo at 10 days follow-up.

Very low quality evidence from 4 RCTs with 248 people with cystic fibrosis >5 years showed a clinically significant improvement in lung function (measured as relative mean % change in FEV₁) in the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) compared to those who were receiving placebo at 1 month follow-up. However, a high level of heterogeneity was found. A subgroup analysis showed that that this improvement in lung function was significant in people with moderate lung disease (3 RCTs, n=183, low quality), whereas no differences were found in the group of participants with severe lung disease (1 RCT, n=65, very low quality).

Very low quality evidence from 1 RCT with 80 people with cystic fibrosis and acute pulmonary exacerbation >5 years showed no clinically significant difference in lung function (measured as % mean change in FEV₁) between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 1 month follow-up.

Very low quality evidence from 2 RCTs with 319 people with cystic fibrosis >6 years showed a clinically significant improvement in lung function (measured as relative mean % change in FEV₁) in the group of participants receiving dornase alfa (2.5 mg twice daily) compared to those who were receiving placebo at 3 months follow-up.

Low quality evidence from 1 RCT with 647 people with cystic fibrosis >6 years showed a clinically significant improvement in lung function (measured as relative mean % change in FEV₁) in the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) compared to those who were receiving placebo at 6 months follow-up.

Moderate quality evidence from 1 RCT with 410 children with cystic fibrosis aged 6 to 10 years showed no clinically significant difference in lung function (measured as absolute mean % change in FEV₁) between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 2 years follow-up.

People experiencing exacerbations (proxy outcome for time to next exacerbation)

Low quality evidence from 1 RCT with 647 people with cystic fibrosis ≥5 years showed no clinically significant difference in the number of people experiencing pulmonary exacerbations between the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) and those who were receiving placebo at 6 months follow-up.

Moderate quality evidence from 1 RCT with 470 children with cystic fibrosis aged 6 to 10 years showed no clinically significant difference in the number of children experiencing pulmonary exacerbations between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 6 months follow-up.

Number of days of intravenous antibiotics use (proxy outcome for need for additional intravenous antibiotics for pulmonary exacerbation)

Very low quality evidence from 1 RCT with 320 people with cystic fibrosis ≥7 years showed no clinically significant difference in the number of days of intravenous antibiotic use between the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) and those who were receiving placebo at 3 months follow-up.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

Moderate quality evidence from 1 cross-over RCT with 17 children and young people with cystic fibrosis aged 6 to 18 years showed no clinically significant difference in the quality of life (CFQ-R parents and CFQ-R 14+) between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 3 months follow-up.

Adverse events

Very low quality evidence from 2 RCTs with 141 people with cystic fibrosis >5 years showed no clinically significant difference in the occurrence of haemoptysis between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 1 month follow-up.

Likewise, very low quality evidence from another RCT with 647 people with cystic fibrosis ≥5 years showed no clinically significant difference in the occurrence of haemoptysis between the group of participants receiving dornase alfa (2.5 mg) and those who were receiving placebo at 6 months follow-up.

Very low quality evidence from 3 RCTs with 233 people with cystic fibrosis >5 years showed a clinically significant higher occurrence of voice alteration in the group of participants receiving dornase alfa (2.5 mg) compared to those who were receiving placebo at 1 month follow-up. Significant heterogeneity was noted between the 2 trials that could be pooled in the meta-analysis. One trial (n=92) noted a harmful effect of dornase alfa, whereas the other did not show any differences. The third trials reported no events in either group.

Likewise, moderate quality evidence from another RCT with 320 children with cystic fibrosis aged 6 to 10 years showed a clinically significant higher occurrence of voice alteration in the group of participants receiving dornase alfa (2.5 mg) compared to those who were receiving placebo at 3 months follow-up.

However, very low quality evidence from 1 RCT with 647 people with cystic fibrosis ≥5 years showed no clinically significant difference in the occurrence of voice alteration between the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) and those who were receiving placebo at 6 months follow-up.

Similarly, low quality evidence from another RCT with 470 children with cystic fibrosis aged 6 to 10 years showed no clinically significant difference in the occurrence of voice alteration between the group of participants receiving dornase alfa (2.5 mg once daily or twice daily) and those who were receiving placebo at 2 years follow-up.

Lung function: FEV₁

Very low quality evidence from 1 cross-over trial with 48 children with cystic fibrosis (mean age 13.3) showed no clinically significant difference in the lung function (measured as mean % change in FEV₁) between the participants receiving dornase alfa (2.5 mg) and those receiving 5.85% sodium chloride at 3 week follow-up.

Low quality evidence from 1 cross-over trial with 14 people with cystic fibrosis >7 years showed a clinically significant improvement in the lung function (measured as mean % change in FEV₁) in the participants receiving dornase alfa (2.5 mg) compared to those receiving 7% sodium chloride at 3 months follow-up.

Time to next exacerbation

No evidence was found for this outcome.

Number of days of inpatient treatment (proxy outcome for need for additional intravenous antibiotics for pulmonary exacerbation)

Moderate quality evidence from 1 cross-over trial with 14 people with cystic fibrosis >7 years showed no clinically significant difference in the number of days of inpatient treatment between the participants receiving dornase alfa (2.5 mg) and those receiving 7% sodium chloride at 3 months follow-up.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

No evidence was found for this outcome.

Adverse events

No evidence was found for this outcome.

Lung function: FEV₁ %

Moderate quality evidence from 1 RCT with 132 adults with cystic fibrosis showed a clinically significant higher likelihood of regaining pre-exacerbation FEV₁% predicted in the group of participants receiving 7% sodium chloride compared to those who were receiving 3% sodium chloride at hospital discharge.

Moderate quality evidence from 1 RCT with 30 children and young people with cystic fibrosis aged 6 to 16 years showed a clinically significant decrease in the lung function (measured as % change in FEV₁) between the group of participants receiving 7% sodium chloride compared to those who were receiving 3% sodium chloride at 2 week follow-up.

Very low quality evidence from 2 RCTs with 93 people with cystic fibrosis aged ≥6 years showed no clinically significant difference in lung function (measured as % change in FEV₁) between the group of participants receiving 6 to 7% sodium chloride compared to those who were receiving 3% sodium chloride at 4 week follow-up. Significant heterogeneity was observed between both trials. The larger trial (n=123) showed no clinically significant difference between both groups, whereas the smallest trial (n=30) showed a clinical significant difference in favour of low-dose concentration.

Moderate quality evidence from 1 RCT with 148 people with cystic fibrosis ≥6 years showed no clinically significant difference in the lung function (measured as % change in FEV₁) between the group of participants receiving 7% sodium chloride and those who were receiving 0.9% sodium chloride at 12, 36 and 48 week follow-ups.

Moderate quality evidence from 1 RCT with 140 people with cystic fibrosis ≥5 years showed a clinically significant improvement in the lung function (measured as % change in FEV₁) in the group of participants receiving 7% sodium chloride compared to those who were receiving 0.9% sodium chloride at 24 week follow-up.

Time to next exacerbation

Moderate quality evidence from 2 RCTs with 453 infants, children, young people and adults with cystic fibrosis showed no clinically significant difference in the time to first pulmonary exacerbation between the group of participants receiving 7% sodium chloride and those who were receiving <3% sodium chloride at 48 week follow-up.

Need for additional intravenous antibiotics for pulmonary exacerbation

High quality evidence from 1 RCT with 321 children with cystic fibrosis ≤6 years showed a clinically significant increase in the number of days of treatment 7% sodium chloride -dose NaCl (7% HS) compared to those who were receiving 0.9% sodium chloride at 48 week follow-up.

Inflammatory markers

No evidence was found for this outcome.

Quality of life

Moderate to high quality evidence from 1 RCT with 132 adults with cystic fibrosis showed no clinically significant difference in the quality of life (measured with CF-QOL physical, burden, health and respiratory domains) between the group of participants receiving 7% sodium chloride and those who were receiving 3% sodium chloride at hospital discharge and at 7 week follow-up.

Low to moderate quality evidence from 1 cross-over trial with 20 children and young people with cystic fibrosis aged 6 to 18 years showed no clinically significant difference in the quality of life (measured with CFQ-R 14+ or CFQ-R parent respiratory domain) between the group of participants receiving 7% sodium chloride and those who were receiving 0.9% sodium chloride at 4 week follow-up.

High quality evidence from 1 RCT with 67 people with cystic fibrosis ≥6 years showed no clinically significant difference in the quality of life (measured as change in CFQ-R parents) between the group of participants receiving 7% sodium chloride and those who were receiving 0.9% sodium chloride at 48 week follow-up.

Moderate quality evidence from 1 RCT with 92 people with cystic fibrosis ≥6 years showed a clinically significant beneficial effect in the quality of life (measured as change in CFQ-R 14+) in the group of participants receiving 7% sodium chloride compared to those who were receiving 0.9% sodium chloride at 48 week follow-up.

Moderate quality evidence from 1 RCT with 321 children with cystic fibrosis ≤6 years showed no clinically difference in the quality of life (measured as change in CFQ-R respiratory) between the group of participants receiving 7% sodium chloride compared and those who were receiving 0.9% sodium chloride at 48 week follow-up.

Adverse events

No evidence was found for this outcome.

Lung function: FEV₁

Very low quality evidence from 1 RCT with 21 adults with cystic fibrosis showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the participants receiving acetylcysteine (2400 mg per day) and those receiving placebo at 4 week follow-up

Low quality evidence from 1 RCT with 22 children and young people with cystic fibrosis aged 6 to 21 years showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the participants receiving acetylcysteine (200 mg × 3 times per day) and those receiving placebo at 12 week follow-up.

Similarly, moderate quality evidence from 1 RCT with 70 people with cystic fibrosis >9 years showed no clinically significant difference in the lung function (measured as change in FEV₁ % predicted) between the participants receiving acetylcysteine (900mg/3 times per day) and those receiving placebo at 24 week follow-up.

Time to next exacerbation

No evidence was found for this outcome.

Incidence of exacerbations (proxy outcome for need for additional intravenous antibiotics for pulmonary exacerbation)

Low quality evidence from 1 RCT with 70 people with cystic fibrosis >9 years showed no clinically significant difference in the incidence of pulmonary exacerbations between the participants receiving acetylcysteine (900mg/3 times per day) and those receiving placebo at 24 week follow-up.

Inflammatory markers

High quality evidence from 1 RCT with 70 people with cystic fibrosis >9 years showed no significant difference in the inflammatory markers (measured as sputum IL-8 log10) between the participants receiving acetylcysteine (900mg/3 times per day) and those receiving placebo at 24 week follow-up. The uncertainty for this outcome could not be calculated.

Quality of life

Low quality evidence from 1 RCT with 70 people with cystic fibrosis >9 years showed no clinically significant difference in the quality of life (measured with CFQ-R respiratory domain) between the participants receiving acetylcysteine (900mg/3 times per day) and those receiving placebo at 24 week follow-up.

Adverse events

No evidence was found for this outcome.

Time to identification of the pathogen (S aureus) in sputum culture

No evidence was found for this critical outcome.

Number of positive pathogen cultures (S aureus) identified

Very low quality evidence from 1 RCT with 96 infants with cystic fibrosis showed no clinically significant difference in the number of children in whom S aureus was identified between the group who were receiving continuous oral Flucloxacillin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first year of follow-up.

Low quality evidence from 2 RCTs with 149 infants with cystic fibrosis showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Flucloxacillin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first 2 years of follow-up.

Very low quality evidence from 1 RCT with 119 infants with cystic fibrosis showed that there was a clinically significant lower number of children in whom S aureus was identified between the group who were receiving continuous oral Flucloxacillin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 3 years of follow-up.

Lung function

No evidence was found for this important outcome.

Pulmonary exacerbation

Very low quality evidence from 2 RCTs with 124 infants with cystic fibrosis showed no clinically significant difference in the number of annual hospital admissions due to pulmonary exacerbations between the children who were receiving continuous oral Flucloxacillin prophylaxis and the children who were receiving antibiotics ‘as required’ during the 3 years follow-up.

Quality of life

No evidence was found for this important outcome.

Minor adverse events

No evidence was found for this important outcome.

Major adverse events

No evidence was found for this important outcome.

Identification of P aeruginosa

Very low quality evidence from 1 RCT with 95 infants with cystic fibrosis showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Flucloxacillin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first year of follow-up.

Very low quality evidence from 2 RCTs with 149 infants with cystic fibrosis showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Flucloxacillin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 2 years of follow-up.

Very low quality evidence from 1 RCT with 120 infants with cystic fibrosis showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Flucloxacillin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 3 years of follow-up.

Adherence to treatment

No evidence was found for this important outcome.

Emergence of resistant organisms

No evidence was found for this important outcome.

Time to identification of the pathogen (S aureus) in sputum culture

No evidence was found for this critical outcome.

Number of positive pathogen cultures (S aureus) identified

Moderate quality evidence from 1 RCT with 152 children with cystic fibrosis < 2 years (n=152) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first year of follow-up.

Moderate quality evidence from 1 RCT (n=166) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first 2 years of follow-up.

Moderate quality evidence from 1 RCT (n=141) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first 3 years of follow-up.

Moderate quality evidence from 1 RCT (n=127) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first 4 years of follow-up.

Low quality evidence from 1 RCT (n=98) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the first 5 years of follow-up.

Low quality evidence from 1 RCT (n=43) showed that there was a clinically significant lower number of children in whom S aureus was identified in the group who were receiving continuous oral Cephalexin prophylaxis compared to the group who were receiving antibiotics ‘as required’ during the 6 years of follow-up.

Lung function: FEV₁

Very low quality evidence from 1 RCT (n=119) showed no clinically significant difference in lung function, measured as FEV₁, between the children who were receiving continuous oral Cephalexin prophylaxis and the children who were receiving antibiotics ‘as required’ at 6 years follow-up.

Pulmonary exacerbation

Very low quality evidence from 1 RCT (n=119) showed no clinically significant difference in the percentage of pulmonary exacerbations between the children who were receiving continuous oral Cephalexin prophylaxis and the children who were receiving antibiotics ‘as required’ during the six years follow-up.

Very low quality evidence from 1 RCT (n=119) showed no clinically significant difference in the number of annual hospital admissions due to pulmonary exacerbations between the children who were receiving continuous oral Cephalexin prophylaxis and the children who were receiving antibiotics ‘as required’ during the 6 years follow-up.

Quality of life

No evidence was found for this important outcome.

Minor adverse events

Moderate quality evidence from 1 RCT (n=119) showed no clinically significant difference in the report of generalised rash, nappy rash and stool frequency between the children who were receiving continuous oral Cephalexin prophylaxis and the children who were receiving antibiotics ‘as required’ during the 6 year study duration.

Major adverse events

No evidence was found for this important outcome.

Identification of P aeruginosa

Very low quality evidence from 1 RCT (n=152) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first year of follow-up.

Low quality evidence from 1 RCT (n=166) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 2 years of follow-up.

Very low quality evidence from 1 RCT (n=141) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 3 years of follow-up.

Low quality evidence from 1 RCT (n=127) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 4 years of follow-up.

Very low quality evidence from 1 RCT (n=98) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the first 5 years of follow-up.

Very low quality evidence from 1 RCT (n=43) showed no clinically significant difference in the number of children in whom P aeruginosa was identified between the group who were receiving continuous oral Cephalexin prophylaxis and the group who were receiving antibiotics ‘as required’ during the 6 years of follow-up.

Adherence to treatment

Moderate quality evidence from 1 RCT (n=119) showed a higher level of adherence to treatment in the group of children who were receiving continuous oral Cephalexin prophylaxis (85% vs. 80%). The uncertainty around this could not be calculated.

Emergence of resistant organisms

No evidence was found for this important outcome.

Antimicrobials for pulmonary exacerbations due to P aeruginosa

Table 96

Summary clinical evidence profile: Comparison 1. Single IV agents compared for pulmonary exacerbations with P aeruginosa.

Table 97

Comparison 2. Single IV antibiotic (with placebo) versus combination IV antibiotic for pulmonary exacerbations with P aeruginosa.

Table 98

Comparison 3. Single IV antibiotic versus combination IV antibiotic for pulmonary exacerbations with P aeruginosa.

Table 99

Comparison 4. Combination IV antibiotics versus combination IV antibiotics for pulmonary exacerbations with P aeruginosa.

Table 100

Comparison 5. Two IV antibiotics + inhaled antibiotic versus 2 IV without inhaled antibiotic for pulmonary exacerbations with P aeruginosa.

Antimicrobials for acute infection with P aeruginosa

Antimicrobial treatment for pulmonary exacerbations due to P aeruginosa

Comparison 1. Single IV agents compared for pulmonary exacerbations with P aeruginosa

Lung function: FEV₁

Low quality evidence from 2 RCTs with 46 young people and adults with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in absolute change of FEV₁ litres between the participants receiving 2 week courses of both ceftazidime (2g 3/day or 8g/day in 4 doses) and those receiving aztreonam (2g 3/day or 8g/day in 4 doses) at 2 week follow-up. Moderate inconsistency was observed between both trials, but both trials showed no differences between groups. In addition, the difference in the absolute change in FEV₁ litres was minimal in both groups.

Eradication

No evidence was found for this critical outcome.

Resolution of infection/exacerbation or measure of treatment failure (e.g. need for additional antibiotics)

No evidence was found for this important outcome.

Duration of the acute episode

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mortality

No evidence was found for this important outcome.

Adverse events

No evidence was found for this important outcome.

Comparison 2. Single IV antibiotic (with placebo) versus combination IV antibiotic for pulmonary exacerbations with P aeruginosa

Lung function: FEV₁

Low quality evidence from 1 RCT with 98 young people with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in FEV₁ % predicted (absolute change) between the participants who received a 10 day course of IV tobramycin (9mg/kg 3× daily) with placebo and those who received a 10 day course of IV ceftazidime (50mg/kg/dose 3× daily and IV tobramycin 3mg/kg 3× daily) at 10 days follow-up.

Very low quality evidence from 1 RCT with 18 young people with cystic fibrosis with P aeruginosa in sputum admitted to hospital for worsening respiratory status showed no clinically significant difference in FEV₁ % predicted (relative change) between the participants who received a 2 week course of both tobramycin with placebo (5% dextrose 4-hourly) and piperacillin at both 50mg/kg 4-hourly and 100mg/kg 8-hourly at 2 week follow-up. All participants received tobramycin 2.5mg/kg 3× daily, oral flucloxacillin 25 mg/kg/day in 4 doses and oral probenecid (suggested to increase antibiotic concentrations) at 250 - 500mg 3× daily.

Adverse events

Low quality evidence from 1 RCT with 18 young people with cystic fibrosis with P aeruginosa in sputum admitted to hospital for worsening respiratory status showed no clinically significant difference in sensitivity reactions between the participants who received a 2-week course of tobramycin with placebo (5% dextrose 4-hourly) and those who received a 2-week course of all regimens of piperacillin (both 50 mg/kg 4-hourly and 100 mg/kg 8-hourly) at 2 week follow-up. All participants received tobramycin 2.5 mg/kg 3× daily, oral flucloxacillin 25 mg/kg/day in 4 doses and oral probenecid (suggested to increase antibiotic concentrations) at 250 - 500 mg 3× daily.

Very low quality evidence from 1 RCT with 18 young people with cystic fibrosis with P aeruginosa in sputum admitted to hospital for worsening respiratory status showed no clinically significant difference in number of hospital admissions due to tinnitus between the participants who received a 10 day course of both tobramycin (9 mg/kg 3× daily) with placebo and those who received ceftazidime (50 mg/kg/dose 3× daily and IV tobramycin 3 mg/kg 3× daily) at 2 week follow-up.

Very low quality evidence from 1 RCT with 44 young people with cystic fibrosis experiencing an exacerbation with P aeruginosa showed no clinically significant difference in serum or creatinine levels between the participants who received a 10 day course of both tobramycin (9 mg/kg 3× daily) with placebo and those who received ceftazidime (50 mg/kg/dose 3× daily and IV tobramycin 3 mg/kg 3× daily) at 2 week follow-up.

However, moderate quality evidence from the same trial showed a clinically significant lower levels of NAG in the participants who received a 10 day course of tobramycin (9 mg/kg 3× daily) with placebo compared with who received a 10 day course combination of IV ceftazidime (50 mg/kg/dose 3× daily) and IV tobramycin (3 mg/kg 3× daily) at 2 week follow-up.

Comparison 3. Single IV antibiotic versus combination IV antibiotic for pulmonary exacerbations with P aeruginosa

Lung function: FEV₁

Low quality evidence from 1 RCT with 30 young people with cystic fibrosis experiencing an acute exacerbation due to P aeruginosa showed a clinically significant beneficial effect of a 10–14 day course of combination ticarcillin (300 mg/kg/day in 4 doses) and tobramycin (10 mg/kg/day in 3 doses) in FEV₁ % relative change compared with a 10–14 day course ceftazidime (200 mg/kg/day in 4 doses) at 2 week follow-up.

Low quality evidence from 1 RCT with 71 adults with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed a clinically significant beneficial effect of a 12 day course of a combination of colistin (2 MU 3× daily) and a second anti-pseudomonal antibiotic in FEV₁ (ml) absolute change compared with colistin (2 MU 3× daily) alone at 12 days follow-up.

Very low quality evidence from 1 RCT with 21 young people with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in FEV₁ % predicted (absolute change) between a 2 week course of ceftazidime 50 mg/kg 3× daily and a combination of piperacillin (75 mg/kg 4× daily) and tobramycin (10 mg/kg/day in 3 doses) at 2 week follow-up.

Eradication

Low quality evidence from 1 RCT with 38 children with cystic fibrosis showed a clinically significant beneficial effect of combination of piperacillin (600 mg/kg/day) and (tobramycin 8 - 10 mg/kg/day) in eradicating P aeruginosa compared with piperacillin alone (600 mg/kg/day).

Resolution of infection/exacerbation or measure of treatment failure (e.g. need for additional antibiotics)

Very low quality evidence from 1 RCT with 19 children with cystic fibrosis admitted to hospital for treatment of a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in time to readmission (months) between a 2 week course of ceftazidime (50 mg/kg 3× daily) and a 2 week course combination piperacillin (75 mg/kg 4× daily) and tobramycin (10 mg/kg/day in 3 doses) at 3 months follow-up.

Very low quality evidence from 1 RCT with 22 children and young people with cystic fibrosis and severe chest infection treated for an exacerbation with P aeruginosa showed no clinically significant difference in number of admissions to hospital requiring IV antibiotics or mortality between a 2 week course of ceftazidime (150 mg/kg/day) and a 2 week course of combination tobramycin (7.5 mg/kg/day) and ticarcillin (300 mg/kg/day) at 3 months follow-up.

Duration of the acute episode

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mortality

Low quality evidence from 1 RCT with 21 young people with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in mortality between a 2 week course of ceftazidime 50 mg/kg 3× daily and 2 week course combination piperacillin (75 mg/kg 4× daily) and tobramycin (10 mg/kg/day in 3 doses) at 4 months follow-up.

Low quality evidence from 1 RCT with 71 adults with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in mortality between a 12 day course of a combination of colistin (2 MU 3× daily) and a second anti-pseudomonal antibiotic in FEV₁ (ml) absolute change compared with 12 day course colistin (2 MU 3× daily) alone at 12 week follow-up.

Adverse events

Very low quality evidence from 2 RCTs with 52 children and young people with cystic fibrosis experiencing an exacerbation due to P aeruginosa showed no clinically significant difference in liver transaminase enzyme elevation between a 10–14 day course of ceftazidime and combination ticarcillin and tobramycin.

Low quality evidence from 1 RCT with 71 adults with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in neurological adverse effects between a 12 day course colistin (2 MU 3× daily) alone and a 12 day course combination of colistin (2 MU 3× daily) and a second anti-pseudomonal antibiotic at 12 days follow-up.

Very low quality evidence from 1 RCT with 17 children with cystic fibrosis admitted for treatment of pulmonary exacerbations showed no clinically significant difference in rash and fever between a 10 day course of piperacillin alone (600 mg/kg/day) and a 10 day course combination piperacillin (600 mg/kg/day) and tobramycin (8 - 10 mg/kg/day) at 10 days follow-up.

Very low quality from 1 RCT with 30 young people with cystic fibrosis and P aeruginosa infection (34 treatment observations) showed no clinically significant difference in proteinuria between a 10–14 day course of ceftazidime (200 mg/kg/day in 4 doses) and combination ticarcillin (300 mg/kg/day in 4 doses) and 10–14 day course tobramycin (10 mg/kg/day in 3 doses) in FEV₁ % relative change compared with ceftazidime.

Low and very low quality evidence from 1 RCT with 71 adults with cystic fibrosis experiencing a pulmonary exacerbation with P aeruginosa showed no clinically significant difference in change in blood urea (mmol/L) and change in serum creatine (mol/L) between a 12 day course of a combination of colistin (2 MU 3× daily) and a 12 day course second anti-pseudomonal antibiotic and colistin (2 MU 3× daily) alone at 12 days follow-up.

Comparison 4. Combination IV antibiotics versus combination IV antibiotics for pulmonary exacerbations with P aeruginosa

Lung function: FEV₁

Low quality evidence from 1 RCT including observations for 49 courses of IV combination therapy (≈42 people with cystic fibrosis aged 3 to 24 years admitted to hospital due to a pulmonary exacerbation with P aeruginosa) showed no clinically significant difference in FEV₁ % predicted (absolute change) between a 2 week course of combination of aztreonam (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) and a 2 week course combination of ceftazidime (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) at 2 week follow-up.

Very low to low quality evidence from 1 RCT with 97 people with cystic fibrosis ≥5 years treated for pulmonary exacerbation showed no clinically significant difference in both FEV₁ % predicted absolute change and relative change between a 2 week course of combination of meropenem (40 mg/kg up to a maximum dose of 2 g) and tobramycin and a 2 week course combination of ceftazidime (50 mg/kg) and tobramycin. Tobramycin dose adjusted to give a peak serum concentration of>= 8 µg/mL and trough concentration of < 2 µg/mL.

Eradication

Very low quality evidence from 1 RCT including observations for 49 courses of IV combination therapy (≈42 people with cystic fibrosis aged 3 to 24 years admitted to hospital due to a pulmonary exacerbation with P aeruginosa) showed no clinically significant difference in eradication of P aeruginosa between a 2 week course of combination of aztreonam (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) and a 2 week course combination of ceftazidime (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) at 2 week follow-up.

Resolution of infection/exacerbation or measure of treatment failure (e.g. need for additional antibiotics)

No evidence was found for this important outcome.

Duration of the acute episode

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mortality

No evidence was found for this important outcome.

Adverse events

Very low quality evidence from 1 RCT including observations for 56 courses of IV combination therapy (≈42 people with cystic fibrosis aged 3 to 24 years admitted to hospital due to a pulmonary exacerbation with P aeruginosa) showed no clinically significant difference in rash, liver transaminase levels and thrombocytopenia between a 2 week course of combination of aztreonam (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) compared with a 2 week course of combination of ceftazidime (300 mg/kg/day in 4 doses) and amikacin (36 mg/kg/day in 3 doses) at 2 week follow-up.

Comparison 5. Combination of 2 IV antibiotics + inhaled antibiotic versus combination of 2 IV antibiotics without inhaled antibiotic for pulmonary exacerbations with P aeruginosa

Lung function

No evidence was found for this critical outcome.

Eradication of pathogen

Moderate quality evidence from 1 RCT including observations for 84 courses of treatment (≈62 people with cystic fibrosis aged 3 to 24 years admitted to hospital due to a pulmonary exacerbation with P aeruginosa) showed a clinically significant beneficial effect of a 15 day course of IV ceftazidime (250 mg/kg/day in 4 doses) and IV amikacin (33 mg/kg/day in 3 doses) and nebulised amikacin (100 mg 2× daily) compared with a 15 day course IV ceftazidime and IV amikacin without nebulised amikacin at 15 days follow-up.

Duration of the acute episode

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mortality

No evidence was found for this important outcome.

Adverse events

Very low quality evidence from 1 RCT with including observations for 54 courses of treatment (≈62 people with cystic fibrosis aged 3 to 24 years admitted to hospital due to a pulmonary exacerbation with P aeruginosa) found no clinically significant difference in raised liver transaminases between a 15 day course of IV ceftazidime (250 mg/kg/day in 4 doses) and IV amikacin (33 mg/kg/day in 3 doses) and nebulised amikacin (100 mg 2× daily) compared with IV ceftazidime and IV amikacin without nebulised amikacin.

Comparison 6. Combination IV antibiotics versus oral antibiotics for pulmonary exacerbations with P aeruginosa

Lung function

No evidence was found for this critical outcome.

Eradication of pathogen

Moderate quality evidence from 1 RCT with 89 children with cystic fibrosis and P aeruginosa infection showed a clinically significant beneficial effect of a 2 week course of combination of IV ceftazidime (50 mg/kg 3× daily) and a 2 week IV tobramycin (3 mg/kg 3× daily) in eradicating P aeruginosa compared with oral ciprofloxacin (15 mg/kg 2× daily) at 2 week follow-up.

Duration of the acute episode

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mortality

No evidence was found for this important outcome.

Adverse events

Very low quality evidence from 1 RCT with 108 children with cystic fibrosis and P aeruginosa infection showed no difference in treatment-related adverse events between a 2 week course of combination IV ceftazidime (50 mg/kg 3× daily) and IV tobramycin (3 mg/kg 3× daily) and oral ciprofloxacin (15 mg/kg 2× daily).

Antimicrobial treatment for acute infection with P aeruginosa

Comparison 7. Oral ciprofloxacin and inhaled colistin versus inhaled tobramycin for acute infection with P aeruginosa

Lung function

No evidence was found for this critical outcome.

Eradication of pathogen

No evidence was found for this critical outcome.

Time to next pulmonary exacerbation

No evidence was found for this important outcome.

Resolution of infection/exacerbation or measure of treatment failure

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Adverse events

Very low quality evidence from 1 RCT with 58 children with cystic fibrosis with new isolation of P aeruginosa showed no clinically significant difference in adverse events (severe cough) between a 3 month course of combination inhaled colistin (2 MU 2× daily) and oral ciprofloxacin (10 mg/kg 3× daily) compared with a 3 month course of inhaled tobramycin (300 mg 2× daily for 28 days) at 3 months follow-up.

Comparison 8. Inhaled colistin and oral ciprofloxacin versus inhaled tobramycin and oral ciprofloxacin for acute infection with P aeruginosa

Lung function: FEV₁

Very low quality evidence from 1 RCT with 128 people with cystic fibrosis >1 year with first ever or new P aeruginosa infection showed no clinically significant difference in FEV₁ % predicted (relative change) between a 28 day course of combination colistin (2× daily inhalation of 2 MU) and ciprofloxacin (2× daily of 15 mg/kg/dose) compared with a 28 day course combination of tobramycin inhaled solution (300 mg 2× daily) and ciprofloxacin (2× daily doses of 15 mg/kg/dose) at 54 days follow-up.

Eradication of pathogen

No evidence was found for this critical outcome.

Time to next pulmonary exacerbation

No evidence was found reporting this important outcome.

Resolution of infection/exacerbation or measure of treatment failure

Very low quality evidence from 1 RCT with 128 people with cystic fibrosis >1 year with first ever or new P aeruginosa infection showed no clinically significant difference in discontinuation due to lack of compliance between a 28 day course of combination colistin (2× daily inhalation of 2 MU) and ciprofloxacin (2× daily of 15 mg/kg/dose) compared with a 28 day course of combination of tobramycin inhaled solution (300 mg 2× daily) and ciprofloxacin (2× daily doses of 15 mg/kg/dose) at 28 days follow-up.

Very low quality evidence from 1 RCT with 128 people with cystic fibrosis >1 year with first ever or new P aeruginosa infection showed no clinically significant difference in pulmonary exacerbation during early eradication treatment leading to treatment failure between a 28 day course of combination colistin (2× daily inhalation of 2 MU) and ciprofloxacin (2× daily of 15 mg/kg/dose) compared with a 28 day course combination of tobramycin inhaled solution (300 mg 2× daily) and ciprofloxacin (2× daily doses of 15 mg/kg/dose) at 28 days follow-up.

Quality of life (QOL)

No evidence was found for this important outcome.

Adverse events

Very low quality evidence from 1 RCT with 128 people with cystic fibrosis >1 year with first ever or new P aeruginosa infection showed no clinically significant difference in adverse events (vomiting, photosensitivity, wheeze) between a 28 day course of combination colistin (2× daily inhalation of 2 MU) and ciprofloxacin (2× daily of 15 mg/kg/dose) compared with a 28 day course combination of tobramycin inhaled solution (300 mg 2× daily) and ciprofloxacin (2× daily doses of 15 mg/kg/dose) at 28 days follow-up.

P aeruginosa

The committee acknowledged the evidence presented to them and discussed it in the light of their clinical expertise and experience.

The committee discussed 2 different scenarios: acute infection and pulmonary exacerbation.

If a person with cystic fibrosis develops a new infection with P aeruginosa (meaning a positive respiratory secretion sample culture where previous cultures in the recent past have been negative) the committee agreed antibiotic treatment is needed. They emphasised early treatment of P aeruginosa infection is very important as it is recognised chronic infection with this pathogen has a negative impact in the quality of life.

The committee noted the management will differ depending on the severity of the symptoms.

If the person is clinically well, the committee suggested it should be treated in order to try to eradicate it using a combination of systemic antibiotics, oral or intravenous, with an inhaled antibiotic. They discussed the use, for example, of oral ciprofloxacin combined with inhaled colistin or nebulised tobramycin. The recommendation to treat this group was based on the committee’s recognition that P aeruginosa is an important pathogen in cystic fibrosis. In their expert opinion intensive treatment with systemic and inhaled antibiotics should improve the chances of eradication. The committee made this recommendation based on their clinical experience as the available evidence was scarce and of very low quality and, therefore, not very useful in making recommendations.

If the person is clinically unwell, for example with new respiratory symptoms and signs or a worsening of existing respiratory symptoms and signs, the approach might be different. The committee recommended that, in that situation, the initial therapy should consist of a course of intravenous antibiotics with an inhaled antibiotic. They discussed, for example, the use of 2 anti-pseudomonal antibiotics, such as ceftazidime and tobramycin, given intravenously together with the inhaled antibiotic. This recommendation is based on moderate quality evidence that showed participants who received an inhaled antibiotic in addition to a combination of 2 intravenous antibiotics were less likely to be admitted to hospital due to a pulmonary exacerbation.

In both groups, based on the consensus of the committee, they advised giving extended treatment in order to try to increase the likelihood of eradication.

In the event that eradication was unsuccessful, the committee agreed that prolonged treatment with an inhaled antibiotic should be given to try and supress it. They recommendations using colistimethate as the first-line choice for this inhalation therapy. Please see antimicrobial treatment for the management of chronic P aeruginosa.

For the management of pulmonary exacerbations due to P aeruginosa in people who are chronically infected with pseudomonas, the committee agreed to recommend oral or intravenous antibiotics, depending on the severity of the illness. The intravenous treatment should consist in a combination of 2 agents, as supported by the evidence included in this review. The committee noted that low quality evidence showed a clinically significant beneficial effect in lung function and in eradication of the organism with a combination of 2 intravenous antibiotics compared to a single antibiotic. In addition, the evidence showed no clinically significant difference in the occurrence of adverse events.

Finally, the committee recommended that if people with chronic P aeruginosa infection suffer from repeated pulmonary exacerbations, consideration should be given to altering the antibiotic regimen used at intervals in order to reduce the possibility of non-response due to emergence of resistance. This should take account of the individual’s pseudomonas antibiotic sensitivity testing. This recommendation was based on the consensus of the committee.

S aureus

No evidence was found for the treatment of S aureus, therefore, recommendations were based on committee’s clinical expertise.

The committee discussed 2 possible scenarios, depending on whether the child is on prophylaxis treatment.

The committee recognised that a potential reason for emergence of S aureus infection was non-adherence to the prophylaxis regimen, so they advised this should be reviewed with parents and carers. They also advised that following treatment-dose anti-staphylococcal antibiotics, the prophylaxis should be reinstated even if treatment was unsuccessful as they believed that suppression of the infection was likely to be clinically beneficial.

If a child is not on prophylaxis against S aureus, and is then found to have developed an infection with this pathogen, the committee recommended oral antibiotic treatment if they are well. They discussed flucloxacillin, co-amoxiclav or doxycycline as potentially useful antibiotic choices for people over 12 years. If, however, they are unwell (for example, with symptoms such as cough), and have evidence of pulmonary disease (for example, reduced lung function based on testing), then either oral or intravenous antibiotic treatment, depending on disease severity, is recommended. The antibiotic used should be broad spectrum to take account of the possibility that S aureus might not be the cause of the illness, but the treatment should include anti-S aureus cover.

The committee agreed that for people with new evidence of MRSA respiratory infection (with or without pulmonary exacerbation), specialist microbiological advice should give guidance on treatment to eradicate it.

B cepacia complex

No evidence was found for the treatment of B cepacia complex, therefore recommendations were based on committee’s clinical expertise.

The committee agreed that if a person develops a new infection with B cepacia complex, an attempt should be made to eradicate the infection with antibiotic therapy whether or not the person was unwell with the infection. They considered that specialist advice should be sought on this treatment. They suggested a combination of 2 or 3 appropriate intravenous antibiotics would usually be given. Examples of intravenous antibiotics that might be advised included, but are not limited to, ceftazidime, meropenem, amikacin and temocillin in addition to specialist advice on the exact regimen was required. The committee noted that it is important to treat new B cepacia complex infections effectively as chronic infection can cause a deterioration in lung function and, in some people, an overwhelming, and even fatal, infection called ‘cepacia syndrome’ may occur. Persistent isolation of B cepacia complex may also adversely impact on a persons’ eligibility for transplantation. The committee noted that treating new infections with B cepacia complex is common practice in adult CF centres.

The committee also discussed the case of people with chronic B cepacia complex infection despite attempts at eradication. They did not recommend treatment for those with chronic B cepacia complex who are clinically well. They noted that B cepacia complex is very resistant to most treatments once established, therefore, treatment is unlikely to work. However, if they became unwell with a pulmonary exacerbation, the committee recommended that specialist advice be sought regarding the use of oral or intravenous antibiotics. They discussed that this would usually be with a course of intravenous antibiotics, although oral antibiotics might also be used for a less severe exacerbation.

H influenzae

No evidence was found for the treatment of H influenzae, therefore recommendations were based on committee’s clinical expertise.

The committee agreed it is important to treat H influenzae in order to prevent chronic infection with this pathogen. This is because although there might not be detectable evidence of disease due to it, the belief is that it will cause lung damage and so should be eradicated. They discussed 2 possible scenarios if a person develops an infection.

If the person is clinically well (asymptomatic), the committee recommended giving an oral antibiotic agent. If the person is clinically unwell (for example, with cough or reduced lung function), they recommended the use of an oral or intravenous antibiotic treatment depending on the severity of the illness.

These recommendations are consistent with clinical practice and with the CF Trust recommendations (CF Consensus document: antibiotic treatment for Cystic Fibrosis, 2009).

Nontuberculous mycobacteria

No evidence was found for the treatment of nontuberculous mycobacteria (NTM), therefore, recommendations were based on committee’s clinical knowledge and expertise. The committee noted that treatment is complex and guidelines are evolving. There is still uncertainty about the best approach to treatment.

The committee emphasised the importance of confirming the presence on nontuberculous mycobacteria by repeating respiratory secretion cultures. This is because nontuberculous mycobacteria are often just sporadic commensal organisms, that is, they just come and go without causing disease. Therefore, the first step when this pathogen is found is to ensure that it persists before actually considering whether it is causing disease. This diagnostic issue was also raised by the CF Trust Consensus document on antibiotic treatment for cystic fibrosis (CF Consensus document: antibiotic treatment for Cystic Fibrosis, 2009).

The committee noted, in a person with respiratory disease who is found to be NTM positive, it was not always easy to determine whether or not the infection was contributing to the disease. Therefore, they recommended that a chest CT scan should be performed because it may show changes that would clarify the role of nontuberculous mycobacteria in the disease.

The committee recommended that a discussion should take place with the person affected and, if appropriate, with parents or carers about the uncertain benefits of therapy aimed at eradication of nontuberculous mycobacteria. They should discuss that, when considering a decision to treat, it is important to be aware of the potential toxicities associated with the drugs used. Potential toxic effects included vomiting, nephrotoxicity and ototoxicity. This is particularly pertinent for people who are positive for nontuberculous mycobacteria but clinically well, where the benefits are less certain.

The committee recommended that consideration be given to treatment for those who are positive for nontuberculous mycobacterium respiratory infection and who have a chest CT scan showing changes consistent with it and who are unwell with pulmonary disease, despite optimisation of other treatment. The recommendation made by the committee to treat based on clinical grounds is consistent with the CF Trust recommendations (CF Consensus document: antibiotic treatment for Cystic Fibrosis, 2009).

The committee recognised that evidence regarding the optimal antibiotic regimen and duration of treatment was lacking. The committee discussed the fact that the approaches to treating M avium complex and M abscessus differ. Currently, treatment for M avium typically includes a combination of 3 oral anti-mycobacterial agents including a macrolide and rifampicin and ethambutol. Current eradication treatment for M abscessus is more intensive and may include repeated courses of triple antibiotic therapy administered intravenously, together with a combination or oral and inhaled antibiotics. Antibiotics used include, but are not limited to, cefoxitin, tigecycline, amikacin, carbapenems and macrolides. They recommended that specialist microbiological advice be sought on which antibiotics to use and on duration of treatment. The committee noted that there was existing consensus guidance on the management of non-tuberculous mycobacteria in an article by Floto, R. A., Olivier, K. N., Saiman, L., et al. (2016) titled “US Cystic Fibrosis Foundation and European Cystic Fibrosis Society consensus recommendations for the management of non-tuberculous mycobacteria in individuals with cystic fibrosis”.

Non-identified pathogen

No evidence was found for the treatment of unidentified infections, therefore recommendations were based on committee’s clinical expertise.

The committee agreed that if a person presents with clinical manifestations suggesting the development of an acute pulmonary infection, or an exacerbation without an identified pathogen, it would be appropriate to treat with a broad-spectrum antibiotic while continuing to collect respiratory secretion samples. The choice of oral or IV treatment will depend on the severity of the symptoms.

Treatment should be modified once the pathogen causing the infection or the exacerbation is identified.

P aeruginosa

The quality of the evidence was rated as very low to moderate as assessed by GRADE for the antimicrobial treatment due to pulmonary exacerbations with P aeruginosa, and very low for the antimicrobial treatment of acute infections with P aeruginosa. No high quality evidence was found. The main reasons that led to downgrading the quality of the evidence were:

• 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 were attrition bias and lack of blinding.
• Another reason that lead to downgrading the quality of the evidence was imprecision as confidence intervals crossed 1 or 2 MIDs.

S aureus

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

B cepacia complex

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

Non-tuberculous mycobacteria

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

Non-identified pathogen

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

Aztreonam lysine

Comparison 1: Aztreonam lysine versus placebo

Lung function: FEV₁

Moderate quality evidence from 1 RCT with 157 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed a clinically significant improvement in lung function (measured as relative change in FEV₁% predicted) in the group of participants receiving Aztreonam lysine (75 mg/day) compared to those in the placebo group at 28 days follow-up.

Number of people with exacerbations

NMA outcome

Time to next exacerbation

No evidence was found for this critical outcome.

Suppression of the organism

High quality evidence from two RCTs with 321 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the suppression of P aeruginosa (measured as change in sputum density log 10 CFU/G) between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up.

Nutritional status: weight

High quality evidence from one RCT with 164 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed difference clinically significant improvement in the nutritional status (measured as % weight change in kg) between the participants who were receiving Aztreonam lysine (75 mg/day) compared to those who were receiving placebo at 4 week follow-up.

Quality of life

Very low to high quality evidence from two RCTs with 321 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed a clinically significant beneficial effect of Aztreonam lysine (75 mg/day) in the following domains of quality of life: eating and vitality (measured with the CFQ-R questionnaire) compared to placebo, at 4 week follow-up. However, very low to moderate quality evidence from the same trials showed no clinically difference in the following domains of quality of life: body image, digestion, eating, emotional functioning, physical functioning, respiratory symptoms, role/school, social functioning, treatment burden and weight ((measured with the CFQ-R questionnaire) between both groups.

Moderate to high unexplained heterogeneity was found for the following domains: eating, emotional functioning, health perceptions, physical functioning, respiratory symptoms, role or school, treatment burden and vitality.

Mild adverse events

Low quality evidence from 1 RCT with 164 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of chest discomfort between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up.

Low quality evidence from 3 RCTs with 532 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of cough between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up.

Very low quality evidence from 2 RCTs with 321 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of headache between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up. Significant unexplained heterogeneity was found between both trials, although both showed no clinically significant differences between both treatment groups.

Serious adverse events

Low quality evidence from 1 RCT with 164 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of dyspnoea between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up.

Low quality evidence from 2 RCTs with 375 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of haemoptysis between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 4 week follow-up.

Mortality

High quality evidence from 1 RCT with 211 people with cystic fibrosis and chronic P aeruginosa infection > 7 years showed that there were no deaths in either group (Aztreonam lysine 75 mg/day or placebo) at 4 week follow-up.

Emergence of resistant organisms

Low to moderate quality evidence from 1 RCT with 155 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the number of people in whom S aureus, S maltophilia or A xylosoxidans was persistently isolated between the participants who were receiving Aztreonam lysine (75 mg/day) and those who were receiving placebo at 42 day follow-up.

High quality evidence from 1 RCT with 155 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed that B Cepacia was not isolated in the participants of either group (Aztreonam lysine 75 mg/day or placebo) at 42 days follow-up.

Comparison 2: Ciprofloxacin versus placebo

Lung function

No evidence was found for this critical outcome.

Number of people with exacerbations

NMA outcome.

Time to next exacerbation

No evidence was found for this critical outcome.

Suppression of the organism

No evidence was found for this important outcome.

Nutritional status: weight

Very low quality evidence from 1 RCT with 40 adults with cystic fibrosis and chronic P aeruginosa infection showed no clinically significant difference in weight (kg) between the participants who were receiving Ciprofloxacin (500 mg. for 10 days/every 3 months) and those who were receiving placebo at 12 months follow-up.

Quality of life

No evidence was found for this important outcome.

Mild adverse events

Very low quality evidence from 1 RCT with 40 adults with cystic fibrosis and chronic P aeruginosa infection showed no clinically significant difference in the occurrence of gastrointestinal adverse events between the participants who were receiving Ciprofloxacin (500 mg. for 10 days/every 3 months) and those who were receiving placebo at 12 months follow-up.

Serious adverse events

No evidence was found for this important outcome.

Mortality

Low quality evidence from 1 RCT with 40 adults with cystic fibrosis and chronic P aeruginosa infection showed no clinically significant difference in the mortality rate between the participants who were receiving Ciprofloxacin (500 mg. for 10 days/every 3 months) and those who were receiving placebo at 12 months follow-up.

Emergence of resistant organisms

Very low quality evidence from 1 RCT with 40 adults with cystic fibrosis and chronic P aeruginosa infection showed no clinically significant difference in the number of people in whom resistant strains of P aeruginosa were isolated between the participants who were receiving Ciprofloxacin (500 mg. for 10 days/every 3 months) and those who were receiving placebo at 12 months follow-up.

Very low quality evidence from 1 RCT with 40 adults with cystic fibrosis and chronic P aeruginosa infection showed no clinically significant difference in the number of people in whom resistant strains of S aureus were isolated between the participants who were receiving Ciprofloxacin (500 mg. for 10 days/every 3 months) and those who were receiving placebo at 12 months follow-up.

Comparison 3.1: Colistin versus placebo

Lung function: FEV₁

Low quality evidence from 1 RTC with 29 people with cystic fibrosis and chronic P aeruginosa infection >7 years showed no clinically significant difference in lung function (measure as change in FEV₁ % predicted) between the participants receiving colistin (1 million units, twice daily for 3 months) and those receiving placebo at 3 months follow-up.

Number of people with exacerbations

NMA outcome

Time to next exacerbation

No evidence was found for this critical outcome.

Suppression of the organism

Moderate quality evidence from 1 RCT with 40 people with cystic fibrosis and chronic P aeruginosa infection >7 years showed that P aeruginosa was not eradicated of the sputum of any patient (Colistin solution 1 million units, twice daily for 3 months or placebo) during the 3 month trial.

Nutritional status

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mild adverse events

No evidence was found for this important outcome.

Serious adverse events

No evidence was found for this important outcome.

Mortality

No evidence was found for this important outcome.

Emergence of resistant organisms

Moderate quality evidence from 1 RCT with 40 people with cystic fibrosis and chronic P aeruginosa infection >7 years reported that none of the patients in either group (Colistin solution 1 million units, twice daily for 3 months or placebo) were infected with other colistin-resistant microorganisms (Ps. Cepacia, Serratia marcesens, Preteus mirabilis, Gram-positive organisms or fungi) during the 3 month trial.

Moderate quality evidence from 1 RCT with 40 people with cystic fibrosis and chronic P aeruginosa infection >7 years reported that resistance to colistin was not developed in any patient (Colistin solution 1 million units, twice daily for 3 months or placebo) during the 3 month trial.

Moderate quality evidence from 1 RCT with 40 people with cystic fibrosis and chronic P aeruginosa infection >7 years reported no change in resistant pattern to other commonly used anti-pseudomonas treatments in any patient (Colistin solution 1 million units, twice daily for 3 months or placebo) during the 3 month trial.

Comparison 3.2: Colistin DPI versus colistin nebulised

Lung function: FEV₁

Very low quality evidence from 1 RCT with 31 people with cystic fibrosis and chronic P aeruginosa infection ≥8 years showed no clinically significant difference in lung function (measured as % mean change in FEV₁ % predicted) between the participants who were receiving Colistin DPI (125 mg/twice daily) and those receiving Colistin inhalation solution (2 MU/twice daily) at 4 week follow-up.

Number of people with exacerbations

NMA outcome

Time to next exacerbation

No evidence was found for this critical outcome.

Suppression of the organism

No evidence was found for this important outcome.

Nutritional status

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Mild adverse events

Very low quality evidence from 1 RCT with 31 people with cystic fibrosis and chronic P aeruginosa infection ≥8 years showed no clinically significant difference in the occurrence of chest discomfort, cough and vomiting between the participants who were receiving Colistin DPI (125 mg/twice daily) and those receiving Colistin inhalation solution (2 MU/twice daily) at 8 week follow-up.

Serious adverse events

Very low quality evidence from 1 RCT with 31 people with cystic fibrosis and chronic P aeruginosa infection ≥8 years showed no clinically significant difference in the occurrence of dyspnoea between the participants who were receiving Colistin DPI (125 mg/twice daily) and those receiving Colistin inhalation solution (2 MU/twice daily) at 8 week follow-up.

Mortality

No evidence was found for this important outcome.

Emergence of resistant organisms

No evidence was found for this important outcome.

Comparison 3.3: Colistin versus Tobramycin

Lung function: FEV₁

Very low quality evidence from 1 RCT with 109 people with cystic fibrosis and chronic P aeruginosa infection > 7 years showed no clinically significant difference in lung function (measured as mean % change in FEV₁ % predicted) between the participants receiving Colistin (COLI neb 1MU/3 ml. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 1 to 3 months follow-up.

Low quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in lung function (measured as mean % change in FEV₁ % predicted) between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 4 and 12 week follow-up.

Low quality evidence from 2 RCTs with 658 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in lung function (measured as mean % change in FEV₁ % predicted) between the participants receiving Colistin and those who were receiving Tobramycin (COLI neb 1MU/3 ml. twice daily versus TOBI neb 300 mg/5ml twice daily and COLI DPI 120 mg. twice daily versus TOBI neb 300 mg/5ml twice daily) at 24 week follow-up.

Number of people with exacerbations

NMA outcome

Time to next exacerbation

Very low quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the time to next pulmonary exacerbation (measured as mean time to first additional anti-pseudomonal treatment) between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) during the 24 weeks duration of the trial.

Suppression of the organism

Low quality evidence from 1 RCT with 79 people with cystic fibrosis and chronic P aeruginosa infection > 7 years showed no clinically significant difference in the suppression of P aeruginosa (measured as change in sputum PA density log10 CFU/ml) between the participants receiving Colistin (COLI neb 1MU/3 ml. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 4 week follow-up.

Nutritional status

Low quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the BMI change between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 24 week follow-up.

Quality of life

Moderate quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no difference in change in quality of life (measured with the individual domains of the CFQ-R questionnaire) between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 24 week follow-up. The uncertainty for this outcome could not be calculated.

Mild adverse events

Very low quality evidence from 1 RCT with 115 people with cystic fibrosis and chronic P aeruginosa infection >7 years showed no clinically significant difference in the occurrence of sputum changes, pharyngitis or cough between the participants receiving Colistin (COLI neb 1MU/3 ml. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 4 week follow-up.

Very low quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of productive cough, chest discomfort or vomiting between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 24 week follow-up.

Serious adverse events

Very low quality evidence from 1 RCT with 115 people with cystic fibrosis and chronic P aeruginosa infection >7 years showed no clinically significant difference in the number of participants who experienced more than 1 serious adverse event between the participants receiving Colistin (COLI neb 1MU/3 ml. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 4 week follow-up.

Very low quality evidence from 1 RCT with 115 people with cystic fibrosis and chronic P aeruginosa infection >7 years showed no clinically significant difference in the occurrence of dyspnoea between the participants receiving Colistin (COLI neb 1MU/3 ml. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 4 week follow-up.

Moderate evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed a clinically significant higher number of people withdrawn from the study due to a serious adverse effect in the group of participants receiving Colistin (COLI DPI 120 mg. twice daily) compared to those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 24 week follow-up.

Very quality evidence from 1 RCT with 374 people with cystic fibrosis and chronic P aeruginosa infection ≥ 6 years showed no clinically significant difference in the occurrence of dyspnoea or haemoptysis between the participants receiving Colistin (COLI DPI 120 mg. twice daily) and those who were receiving Tobramycin (TOBI neb 300 mg/5ml twice daily) at 24 week follow-up.

Mortality

No evidence was found for this outcome.

Emergence of resistant organisms

Low quality evidence from 1 RCT with 115 people with cystic fibrosis and chronic P aeruginosa infection >7 years reported that none of the patients in either treatment group (COLI neb 1MU/3 ml. twice daily and TOBI neb 300 mg/5ml twice daily) developed highly tobramycin-resistant P aeruginosa at 24 week follow-up.

Cefradine (oral)

No evidence was found for this treatment.

Cotrimoxazole (oral)

No evidence was found for this treatment.

Doxycycline (oral)

No evidence was found for this treatment.

Flucloxacillin (oral)

No evidence was found for this treatment.

Ceftazidime (inhaled)

No evidence was found for this treatment.

Cotrimoxazole (oral)

No evidence was found for this treatment.

Imipenem (oral)

No evidence was found for this treatment.

Meropenem (inhaled)

No evidence was found for this treatment.

Trimethoprim (oral)

No evidence was found for this treatment.

Amphotericin (inhaled)

No evidence was found for this treatment.

Itraconazole (oral)

Comparison 7: Itraconazole versus placebo

Lung function: FEV₁

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in lung function (measured as percentage change in FEV₁ predicted from baseline) between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo after 24 or 48 week follow-up.

Exacerbations

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in the time to next exacerbation between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo.

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in the number of patients requiring oral or IV antibiotics due to a pulmonary exacerbation between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo after 24 or 48 week follow-up.

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in the number of patients admitted to hospital due to a pulmonary exacerbation between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo after 24 or 48 week follow-ups.

Suppression of the organism

No evidence was found for this important outcome.

Nutritional status

No evidence was found for this important outcome.

Quality of life

Very low quality evidence from 1 RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no differences in quality of life (measured as change in CFQ-R total score and respiratory domain) between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo after the 24-week treatment duration. The uncertainty around this outcome could not be calculated.

Mild adverse events

Very low evidence from one RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in the occurrence of minor adverse events (including: increased dyspnoea, rash, hyperglycaemia, flu-like illness, diarrhoea and conjunctivitis) between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo during the 24-week treatment duration.

Serious adverse events

Very low quality evidence from one RCT with 35 people with cystic fibrosis and chronically colonised with A fumigatus ≥ 6 years showed no clinically significant difference in the occurrence of major adverse events (including: haemoptysis and spontaneous pneumothorax) between the participants who were receiving oral Itraconazole (5mg/kg once or twice daily) and those who were receiving placebo during the 24-week treatment duration.

Mortality

No evidence was found for this important outcome.

Emergence of resistant organisms

No evidence was found for this important outcome.

Posaconazole (oral)

No evidence was found for this treatment.

Voriconazole (oral)

No evidence was found for this treatment.

Chronic P Aeruginosa

The committee discussed the results from the network meta-analysis. They noted that it was not possible to conduct network meta-analysis for the critical outcome FEV₁ due to high unexplained heterogeneity.

The results from the NMA suggested that Aztreonam lysine was more effective than placebo or tobramycin at reducing the odds of experiencing a pulmonary exacerbation. This result has to be treated with caution as there was considerable uncertainty in the network.

The committee also discussed the results from the review, conventional pair-wise meta-analysis. They first reviewed the evidence comparing treatments against placebo.

With regards to colistin, the evidence showed that inhaled colistin was no better than placebo with regards to lung function. The committee noted this evidence was of low quality and came from a small single trial. Moderate quality evidence showed that inhaled colistin was not associated with the emergence of resistant organisms when compared to placebo. They looked at the evidence comparing different routes of administration. Very low quality evidence from one trial showed no differences between colistin DPI and inhaled colistin in lung function and in the occurrence of adverse events.

The committee discussed the evidence comparing tobramycin and placebo. They noted tobramycin was associated with a clinically significant improvement in lung function at 1 to 3 months. However, moderate heterogeneity was found between trials therefore, they agreed this result should be interpreted with caution. With regards to suppressing the organisms, the evidence showed contradicting results. High quality evidence showed that tobramycin was better than placebo at suppressing the organism (measured as having a negative culture) at 4 and 20 week follow-ups. In addition, low to moderate quality evidence showed a clinically significant reduction in sputum density at 4 week follow-ups. However, moderate quality evidence showed no clinically significant difference in the eradication of P aeruginosa 6, 8, and 24 week follow-ups. The evidence regarding side effects was not conclusive either, but tobramycin was associated with an increased risk in the occurrence of mild adverse events including tinnitus. They looked at the evidence comparing different routes of administration. They noted there were no clinically significant differences between tobramycin DPI and inhaled tobramycin in lung function, change in sputum density or adverse events. The quality of the evidence range from very low to moderate.

With regards to ciprofloxacin, the committee noted there was no evidence for the critical outcome lung function. No differences were found in weight.

They noted there was moderate quality evidence showing that aztreonam lysine was better than placebo for lung function, weight and quality of life. In addition, no clinically significant differences were found in the occurrence of adverse events or in the emergence of resistant organisms.

The committee also reviewed the evidence comparing colistin and tobramycin. Very low to low quality evidence showed no clinically significant differences in lung function at 4, 12 and 24 weeks. Likewise, very low quality evidence showed no differences in time to next additional anti-pseudomonal treatment. With regards to the important outcomes, no clinically significant differences were found for suppression of the organism (measured as change in sputum density), weight, quality of life, adverse events and emergence of resistant organisms. The quality of the evidence ranged from very low to moderate.

The committee reviewed the evidence comparing tobramycin and aztreonam. Moderate quality evidence showed no clinically significant differences in lung function at 3 month follow-up. Low quality evidence showed no differences in change in sputum density or quality of life at 20 week follow-ups, and in weight at 24 weeks. Finally, no differences were found in the occurrence of adverse events at 3 months.

The committee noted the combination of fosfomycin and high low-dose tobramycin was found to be significantly better than placebo in lung function at 4 week follow-up. This evidence came from a single trial and was rated as of low to moderate quality. Low quality evidence from the same trial showed a clinically significant decrease in sputum density in the group receiving low-dose tobramycin, but this different was not clinically significant in the high-dose group.

Finally the committee discussed the compassion between continuous alternating therapy with tobramycin followed by aztreonam and intermittent treatment with tobramycin followed by placebo. The evidence showed no differences between both treatment regimens in lung function (moderate quality), time to next exacerbation (low quality) and quality of life (low quality) at 20 weeks. However, they noted the risk of adverse events was higher in the participants in the continuous alternating therapy group.

The committee noted no evidence was found for high-dose azithromycin and fosfomycin.

The findings of the clinical evidence were discussed in the light of the economic evidence. In addition, the committee discussed the current recommendations from the NICE TA report 276 (Tappenden 2013) that looked at colistin and tobramycin for the treatment of chronic P aeruginosa in people with cystic fibrosis over the age of 6 years.

As recommended in the NICE TA report 276 the committee agreed that colistin should be used as first-line treatment and can be given as dry powder for inhalation to those people who cannot tolerate it in its nebulised form. This recommendation is consistent with clinical practice and the CF Trust consensus recommendations.

The committee discussed whether aztreonam lysine or tobramycin should be given as second line treatment in case clinical deterioration occurs despite regular colistin. Clinical deterioration was considered to be an increase in the number of exacerbations or a decline in pulmonary function (determined by spirometry). In line with NICE TA report 276, the committee agreed to recommend either aztreonam lysine, nebulised tobramycin or tobramycin dry powder (see the section on economic benefits and harms). This is because although they noted the NMA suggested aztreonam was better than placebo or tobramycin, there was lots of uncertainty regarding the results. In addition, the available direct evidence comparing aztreonam lysine and tobramycin did not favour either treatment.

The committee discussed their understanding that the effect of an antimicrobial may diminish over time with repeated exposure. This may account for improvements seen in clinical trials with new agents in treatment-naïve populations. Therefore, it would be appropriate to change between agents in line with an individual’s response.

The committee noted that adherence to treatment can be a relevant issue and should be considered when prescribing treatment.

The committee noted that in practice, combinations of inhaled antimicrobials may be prescribed on alternate cycles, for example, colistin alternating with tobramycin or aztreonam lysine or tobramycin alternating with aztreonam lysine. However, in the absence of evidence, they did not write a recommendation.

The committee noted that other inhaled antimicrobials were in development but did not form part of this review as the data was not available when the review was undertaken (for example, levofloxacin inhalation solution). The omission of levofloxacin from the recommendations does not reflect a decision not to recommend it but rather the fact that it was not included in this review.

Chronic S aureus

No evidence was found for the treatment of chronic S aureus, therefore, recommendations were based on committee’s clinical expertise. They noted the Cochrane review is empty.

The committee made separate recommendations for MSSA and MRSA. This is because MRSA treatment is more complex than MSSA treatment.

The committee’s consensus was that long term oral antibiotic treatment to suppress MSSA could be justified whether the person is unwell or not, because this is a recognised and important pulmonary pathogen in children and adults. Supressing it might be expected to reduce the risk of progressive lung disease and of acute exacerbations caused by this infection. The choice of treatment would depend on disease severity.

With regards to MRSA, the committee agreed that there is no need to routinely give antibiotic treatment to suppress infection in people with chronic MRSA who are stable. They noted it is important to explain the risks and benefits of treatment to the person with cystic fibrosis and their families. However, they agreed that if S aureus is repeatedly isolated from a patient’s respiratory samples and the lung function is deteriorating a course of antibiotics could be considered. This is because MRSA can be fatal in people who are unwell.

The committee acknowledged the infection control guideline (CG 139) and agreed that many of the principles are also applicable to people with cystic fibrosis.

Chronic B cepacia complex

No evidence was found for the treatment of B cepacia complex, therefore, recommendations were based on committee’s clinical expertise. The committee noted that only a small number of people are infected with B cepacia complex, and most published studies are anecdotal reports.

The committee agreed that there is a strong emphasis in cross-infection prevention to avoid the spread of B cepacia complex between people with cystic fibrosis. However, they noted there is variability in the way people are treated.

Given that there is no evidence to support giving antibiotics to people with chronic B cepacia complex who are stable, the committee noted that it is important to discuss the possible risks of treating the infection, such as drug toxicity, with the person with cystic fibrosis and their family members or carers.

The committee agreed treatment could be considered for people with chronic B cepacia complex who are experiencing an exacerbation or whose lung function is deteriorating.

The committee noted the used of inhaled antibiotics can be considered. However, they agreed it is important to seek specialist microbiological advice on which antibiotic to use as healthcare professionals may have limited experience dealing with B cepacia complex.

Finally, the committee agreed treatment should be stopped if no benefit is observed.

Chronic A fumigatus

The committee acknowledged the evidence was scarce and of poor quality. They noted therapeutic azole levels were not achieved in many participants. Therefore, recommendations were mainly based on the committee’s clinical knowledge and experience.

The committee agreed that, in people who are stable, there is no need to treat with antifungal agents to suppress infection. This is because it is known that chronic aspergillus colonisation can exist without associated deterioration in lung function. Treatment of this organism can be difficult and is associated with adverse events.

The committee discussed that, in people who are chronically infected with A fumigatus and deteriorating without an obvious explanation, a trial with an antifungal agent can be considered. They agreed to recommend a trial with an antifungal agent because this pathogen could be the cause of the deterioration in the lung function. They noted that their first-line choice was itraconazole but that therapeutic levels of this agent are particularly difficult to achieve and it may be necessary to change to another antifungal such as voriconazole or posaconazole. Regardless, the choice of the antifungal agent should take in vitro sensitivities into account to ensure the optimal drug is used. They acknowledged that advice may be sought from a specialist microbiologist to inform choice. Finally, they highlighted that clinical response should be appropriately assessed and that treatment could be stopped or modified if no benefit was observed.

The committee acknowledge that it was important to distinguish between those who have respiratory symptoms due to infection with aspergillus and those who have clinical manifestations due to allergic sensitisation to aspergillus. For people with cystic fibrosis who have elevated aspergillus serology (aspergillus-specific IgG and/or IgE), declining pulmonary function and whose pulmonary treatment is optimised, the committee agreed that clinicians should think about treating allergic bronchopulmonary aspergillosis (ABPA) or other aspergillus airway disease, especially if a chest x-ray or CT scan shows consistent changes.

Antimicrobial regimens for the treatment of chronic P aeruginosa

The committee agreed that the use of a lifetime horizon in the economic model was appropriate. However, they acknowledged the limitation of extrapolating short-term trial results over a lifetime horizon. The committee noted that the model did not reflect the current treatment pathway where some people switch their treatment or receive a combination of treatments. However, the committee agreed that there was no clinical effectiveness data available on treatment switching or combinations to inform the model beyond the trial by Flume 2016. As a result, the committee considered the “with-in” trial analysis that did not extrapolate data to a lifetime horizon to address those limitations. The committee noted that trial participants were not treatment naïve which may underestimate the benefits and cost-effectiveness of those treatments in a naïve population.

The committee considered the impact of treatment adherence on cost-effectiveness, as cost-effectiveness may be overestimated beyond a trial setting, if the same benefits are not achieved. The committee advised that colistimethate sodium has a lower adherence than tobramycin because it requires more time and effort to administer. On the other hand, the committee also believed colistimethate tasted better than tobramycin which may increase adherence to colistimethate compared to tobramycin, especially in children. As a result, there are issues in both directions that could cancel out with little influence on the model. The committee added that people with cystic fibrosis may be more likely to adhere to a dry powder inhalation treatment than a nebulised treatment in view of the speed and convenience of drug delivery. However, newer nebulisers with quicker delivery time, such as the PARI eFlow jet nebuliser and I-neb, are increasing in use. For these reasons, it remains unclear whether dry powder inhalers would reduce treatment burden compared to newer quicker nebulisers.

It is current practice to offer people infected with chronic P aeruginosa antimicrobial treatment to prevent deterioration in their lung function. Despite this, the committee discussed how the benefits of antimicrobial treatment may not outweigh their costs. As a result, the committee questioned if current practice should be changed based on the economic model that found a small decrease in effectiveness for a large cost saving. Following this, the committee acknowledged that current NICE HTA recommendations state nebulised colistimethate sodium should be offered as a first-line option. However, the sources of evidence considered in NICE TA276 did not compare nebulised colistimethate sodium to “no treatment” which, again, questions if nebulised colistimethate sodium should be recommended.

If “no treatment” cannot be accepted as an option, the committee agreed that nebulised colistimethate sodium would be the most cost-effective antimicrobial and tobramycin dry powder would be the least as it was dominated (less effective and more expensive) by the other options in the economic model.

The committee agreed that it was reasonable to assume the exacerbation rate for nebulised colistimethate sodium was equal to nebulised tobramycin in the absence of data. The committee also agreed that given the current clinical pathway, they would have liked to have seen effectiveness evidence comparing nebulised colistimethate sodium, colistimethate dry powder and “no treatment”, especially as this evidence was not available during the submission of evidence in NICE TA276. To reduce this uncertainty, the committee considered a research recommendation to assess the clinical and cost-effectiveness of those options. However, the committee acknowledged a trial with a placebo arm would be unlikely to be approved.

The committee highlighted that current practice for inhaled therapies in cystic fibrosis follows the Clinical Commissioning Policy by NHS England who propose aztreonam lysine as a third line treatment following tobramycin. However, this recommendation is based primarily on cost and not cost-effectiveness that assesses if the additional benefit from aztreonam lysine outweigh its additional cost. Moreover, the cost-effectiveness of aztreonam lysine compared to nebulised tobramycin was published during the development of this guideline by Schechter 2015. Consequently, the comparison between nebulised tobramycin and aztreonam lysine was of greatest interest to the committee.

They agreed that the analysis by Schechter 2015 was favoured towards aztreonam lysine for several reasons. For example, the analysis included a much higher cost to manage an exacerbation (potentially as the analysis took a US third party perspective) and used a high drug acquisition cost for nebulised tobramycin than aztreonam lysine, influencing aztreonam lysine’s “dominant” result. Furthermore, participants included in the trial by Assael 2013 were not naïve to tobramycin, potentially with less to scope to benefit from tobramycin compared to aztreonam lysine.

However, the clinical evidence review also favoured aztreonam lysine over the other treatments under consideration. Based on the results from the economic model that was developed to reflect UK clinical practice, the committee agreed that aztreonam lysine could displace nebulised tobramycin as many of the analyses explored provided an ICER below NICE’s upper threshold for cost-effectiveness. However, given current NICE HTA recommendations, the committee agreed they could not recommend aztreonam lysine as the sole second-line option following colistimethate sodium. As a result, the committee prioritised a recommendation to consider aztreonam lysine or tobramycin when the person with a chronic infection is clinically deteriorating, despite regular inhaled colistimethate sodium.

The committee continued to discuss the combination treatment (28 days aztreonam lysine alternating with 28 days nebulised tobramycin) that was dominated by aztreonam lysine in the model. Given that a combination treatment incurs a continuous drug cost and demonstrated clinical effectiveness above nebulised tobramycin and below aztreonam lysine, the result was considered to accurately represent the available evidence. However, the committee vocalised their concerns that the RCTs identified in the clinical evidence review were flawed as they were often underpowered and included participants who were not treatment naive. The committee agreed a research recommendation was needed to demonstrate the clinical and cost effectiveness of combination treatments, but acknowledged that such a study would be impossible to conduct as the number of eligible participants would lead to another underpowered study. Overall, the committee acknowledged the limitations of the available evidence and agreed not to make a recommendation regarding combination treatments, as they believed clinical practice was clinically effective and cost-effective.

Antimicrobial regimens for the treatment of A fumigatus, S aureus and B cepacia complex

The committee advised that people with cystic fibrosis who have a stable chronic infection with A fumigatus, S aureus or B cepacia complex, and leave hospital untreated, feel anxious. To reduce their anxiety, the committee agreed that clinicians should inform their patients that there is no evidence on the effectiveness of suppressive antimicrobial treatment with the aim to reduce the number of people who insist on receiving treatment that is potentially cost-ineffective.

The committee advised that people who are chronically infected with S aureus are given flucloxacillin in UK clinical practice. They noted there is some variation when the treatment is initiated and stopped with regards to the severity of their symptoms. The committee acknowledged the higher price of oral solutions compared to capsules (NHS Electronic Drug Tariff September 2016: flucloxacillin 500mg capsules; £2.22/28 capsules, £0.08/500mg vs. flucloxacillin 250mg/5ml oral solution sugar free; £27.24/100ml, £2.72/500mg/10ml) and agreed that people who are chronically infected would be given the cheaper capsule preparation as they are unlikely to have swallowing difficulties at the age of chronic infection. Based on a dose of 4g/day, the cost of flucloxacillin in capsule form would be less than £1/day. Despite such low acquisition costs, the committee agreed that they should not be prescribed if they do not benefit the person with the chronic infection, especially as cystic fibrosis is a multi-system disorder associated with complex daily regimens. As a result, the committee concluded that antibiotics to suppress chronic MRSA should only be considered in people who are deteriorating, but not in people who have a stable chronic infection, as the cost and burden of treatment is likely to outweigh the benefits of treatment. Conversely, treatment should be considered to suppress chronic MSSA in people with stable pulmonary status given that the expected downstream costs associated with an unmanaged infection would outweigh the cost and burden of suppressive therapy.

The committee advised that the long-term use of drugs used to suppress B cepacia complex can have adverse effects associated with additional treatment costs and quality of life decrements. Consequently, the committee did not want to recommend the use of those drugs in people who are chronically infected and stable, adding that reducing their treatment burden may subsequently promote adherence to their existing regimens and outweigh the benefits of suppressive treatment. However, the committee agreed that people who are deteriorating should consider a trial of chronic suppressive treatment with an inhaled antibiotic. The committee also stated that clinicians should observe someone’s response to treatment to ensure the cost of treatment is justified by suppression of the infection and to discontinue their treatment when they suspect the expected cost to exceed the expected benefit.

The committee advised that the first-line treatment for people who are chronically infected with A fumigatus is itraconazole. The committee discussed the clinical evidence that found no significant difference between itraconazole and usual care and concluded that the study was low quality with an undefined population. The committee also noted that the antimicrobials used to supress A fumigatus are relatively expensive compared to those used to suppress B cepacia complex and S aureus. As a result, the committee concluded that treatment in people who are deteriorating should take a stepwise approach, starting with the cheapest treatment (NHS Electronic Drug Tariff September 2016: itraconazole 100mg capsules; £3.42/15 capsules, £0.23/100mg). Based on a dose of 200mg twice daily, the cost of itraconazole in capsule from would be less than £1/day. Similarly to a stable chronic infection with B cepacia complex or S aureus, the committee agreed that people who have a stable chronic infection with A fumigatus should not be given routine antimicrobials treatment in an to attempt to suppress the chronic infection.

Overall, cost data has little use without associated benefits. Therefore, while the cost of long-term suppressive antimicrobial treatment could be significant, without knowing the benefits of treatment we cannot know if they will be cost-effective. Therefore a research recommendation to assess the clinical effectiveness of suppressive antimicrobial treatment in people chronically infected with S aureus, B cepacia complex or A fumigatus will assess if the benefits can justify the costs in order to reduce current uncertainty in this area.

P aeruginosa

The quality of the evidence ranged 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 reasons that lead to downgrading the quality of the evidence was the risk of bias, many of the studies were open trials and there were issues in relation to data reporting, randomisation and allocation concealment.

Another reason that lead to downgrading the quality of the evidence was imprecision, as confidence intervals crossed 1 or 2 clinical or default MIDs.

No issues where identified in relation to the directness of the population.

S aureus

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

B Cepacia Complex

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

A fumigatus

One study was found for the treatment of chronic A fumigatus. The evidence was considered low to very low quality as assessed by GRADE. The main reasons that lead to downgrading the quality of the evidence were the moderate risk of bias found in the study and the levels of imprecision. The evidence was downgraded further because the committee noted therapeutic dosages were not achieved in 2 out of 3 of the participants.

Inhaled Beclometasone

No evidence was found for this treatment.

Inhaled Budesonide

No evidence was found for this treatment.

Inhaled Fluticasone

Comparison 1. Fluticasone versus placebo

Time to next exacerbation

Low quality evidence from 1 RCT with 171 children, young people and adults with cystic fibrosis showed no clinically significant difference in the time to next exacerbation between fluticasone and placebo at 6 months follow-up.

Nutritional status

No evidence was found for this important outcome.

Quality of life

No evidence was found for this important outcome.

Adverse effects

Moderate quality evidence from 1 RCT with 30 children with cystic fibrosis showed no clinically significant difference in growth measured by change in height standard deviation score between fluticasone and placebo over 12 months follow-up.

Moderate quality evidence from 1 RCT with 80 people with cystic fibrosis showed no clinically significant difference in growth measured by change in height measured by centimetres between fluticasone and placebo over 8 months follow-up.

Mortality

No evidence was found for this important outcome.

IV Methylprednisolone

No evidence was found for this treatment.

Oral Prednisone/Prednisolone

Comparison 2. Prednisone/prednisolone versus placebo

Time to next exacerbation

No evidence was found for this critical outcome.

Nutritional status: weight and height

Very low quality evidence from 1 RCT with 25 children and young people with cystic fibrosis showed no clinically significant difference in weight measured in kilograms between 2 mg/kg prednisolone and placebo at 12 week follow-ups.

Low quality evidence from 1 observational study with 55 young people (males) with cystic fibrosis showed no clinically significant difference in weight measured in kilograms between 1 mg/kg prednisolone and placebo at the age of 18.

Moderate quality evidence from 1 observational study with 52 young people (males) with cystic fibrosis showed a clinically significant harmful effect of 2 mg/kg prednisolone in weight measured in kilograms compared to placebo at the age of 18.

Very low quality evidence from 1 observational study with 43 young people (females) with cystic fibrosis showed no clinically significant difference in weight measured in kilograms between 1 mg/kg prednisolone and placebo at the age of 18.

Very low quality evidence from 1 observational study with 46 young people (females) with cystic fibrosis showed no clinically significant difference in weight measured in kilograms between 2 mg/kg prednisolone and placebo at the age of 18.

Very low quality evidence from 1 observational study with 52 young people (males) with cystic fibrosis showed a clinically significant harmful effect of 1 mg/kg prednisolone in height measured in centimetres compared to placebo at the age of 18.

Very low quality evidence from 1 observational study with 52 young people (males) with cystic fibrosis showed a clinically significant harmful effect of 2 mg/kg prednisolone in height measured in centimetres compared to placebo at the age of 18.

Very low quality evidence from 1 observational study with 43 young people (females) with cystic fibrosis showed no clinically significant difference in height measured in centimetres between 1 mg/kg prednisolone and placebo at the age of 18.

Very low quality evidence from 1 observational study with 46 young people (females) with cystic fibrosis showed no clinically significant difference in height measured in centimetres between 2 mg/kg prednisolone and placebo at the age of 18.

Quality of life

No evidence was found for this important outcome.

Adverse effects

Very low quality evidence from 1 RCT with 190 children with cystic fibrosis showed no clinically significant difference in cataracts, diabetes mellitus, glycosuria and hyperglycaemia between 1 mg/kg prednisone and placebo at 4 years follow-up.

Very low quality evidence from 1 RCT with 190 children with cystic fibrosis showed no clinically significant difference in cataracts and diabetes mellitus between 2 mg/kg prednisone and placebo at 3 years follow-up.

Low quality evidence from 1 RCT with 190 children with cystic fibrosis showed no clinically significant difference in glycosuria between 2 mg/kg prednisone and placebo at 3 years follow-up.

Low quality evidence from 1 RCT with 190 children with cystic fibrosis showed a clinically significant harmful effect of 2 mg/kg prednisone compared with placebo for hyperglycaemia at 3 years follow-up.

Mortality

Low quality evidence with 45 children with cystic fibrosis showed no clinically significant difference in mortality between 2mg/kg prednisone and placebo at 4 years follow-up.

Azithromycin

Comparison 3. Azithromycin versus placebo

Time to next exacerbation

High quality evidence from 2 RCT with 445 children and young people with cystic fibrosis showed a clinically significant beneficial effect of azithromycin in the time to next exacerbation compared to placebo at 6 months follow-up.

High quality evidence from 1 RCT with 82 children and young people with cystic fibrosis showed a clinically significant beneficial effect of azithromycin in the time to next exacerbation compared to placebo at 12 months follow-up.

Nutritional status: BMI and weight

Moderate quality evidence from 1 RCT with 82 children and young people with cystic fibrosis showed no clinically significant difference in change in BMI z score from baseline between azithromycin and placebo at 12 months follow-up.

Moderate quality evidence from 2 RCTs with 440 people with cystic fibrosis > 6 years showed a clinically significant beneficial effect of azithromycin in weight change measured in kilograms compared to placebo at 24 week follow-up.

Quality of life

High quality evidence from 1 RCT with 177 people with cystic fibrosis > 6 years showed no clinically significant difference in change in quality of life (measure with CFQ-R total score, and CFQ-R physical, psychosocial and body image domains) between azithromycin and placebo at 6 months follow-up.

Adverse effects

Low quality evidence from 1 RCT with 185 people with cystic fibrosis > 6 years showed no clinically significant difference in hearing impairment and tinnitus between azithromycin and placebo at 6 months follow-up.

Mortality

No evidence was found for this important outcome.

Ibuprofen

Comparison 4. Ibuprofen versus placebo

Time to next exacerbation

No evidence was found for this critical outcome.

Nutritional status: weight

Low quality evidence from 1 RCT with 84 people with cystic fibrosis aged 5 to 39 years showed a clinically significant beneficial effect of ibuprofen in annual rate of change in percent ideal body weight compared to placebo at 4 years follow-up. However, this clinically beneficial significant effect was seen in children under 13 years only (n=49). Very low quality evidence from this study showed no clinically significant difference in change in percent ideal body weight in people with cystic fibrosis over 13 years (n=35) at 4 years follow-up.

Quality of life

No evidence was found for this important outcome.

Adverse effects

Low quality evidence from 1 RCT with 142 children with cystic fibrosis showed no clinically significant difference in increase of abdominal pain between ibuprofen and placebo at 2 years follow-up.

Very low quality evidence from 1 RCT with 84 children, young people and adults with cystic fibrosis showed no clinically significant difference in increase of abdominal pain between ibuprofen and placebo at 4 years follow-up.

Low quality evidence from 1 RCT with 142 children with cystic fibrosis showed no clinically significant difference in abdominal bleeding between ibuprofen and placebo at 2 years follow-up.

Mortality

No evidence was found for this important outcome.