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National Collaborating Centre for Women's and Children's Health (UK). Ectopic Pregnancy and Miscarriage: Diagnosis and Initial Management in Early Pregnancy of Ectopic Pregnancy and Miscarriage. London: RCOG Press; 2012 Dec. (NICE Clinical Guidelines, No. 154.)

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  • In April 2019 NICE updated its guideline on ectopic pregnancy and miscarriage. See the evidence reviews for the areas in which new recommendations were developed. The 2012 recommendations have been retained in the new guideline. This 2012 full guideline includes the evidence supporting the 2012 recommendations and has not been updated.

In April 2019 NICE updated its guideline on ectopic pregnancy and miscarriage. See the evidence reviews for the areas in which new recommendations were developed. The 2012 recommendations have been retained in the new guideline. This 2012 full guideline includes the evidence supporting the 2012 recommendations and has not been updated.

Cover of Ectopic Pregnancy and Miscarriage

Ectopic Pregnancy and Miscarriage: Diagnosis and Initial Management in Early Pregnancy of Ectopic Pregnancy and Miscarriage.

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9Anti-D rhesus prophylaxis

9.1. Introduction

Haemolytic disease of the newborn is caused by the destruction of fetal red blood cells by maternal antibodies against red cell antigens acquired from the father. Fifteen percent of all women are rhesus (D) protein negative and therefore historically the vast majority of cases of haemolytic disease of the newborn have been caused by the production of antibodies against the rhesus D antigen. Currently there is confusion about whether anti-D prophylaxis is required to prevent sensitisation during bleeding in the first trimester of pregnancy. The group therefore considered the risk of sensitisation in the first 13 weeks of a pregnancy complicated by bleeding. In women in whom anti-D is required, the group then looked at the most appropriate dose of anti-D that should be recommended to prevent sensitisation.

9.2. Anti-D rhesus prophylaxis for threatened miscarriage, miscarriage and ectopic pregnancy

Review question

Should anti-D rhesus prophylaxis be given to women with a threatened miscarriage, miscarriage or ectopic pregnancy in the first trimester?

Description of included studies

Eight studies were included in this review (Gavin, 1972; Katz & Marcus, 1973; Murray & Barron, 1971; Murray et al., 1970; Simonovits et al., 1974; Simonovits et al., 1980; Visscher & Visscher, 1972; Walsh & Lewis, 1970).

Of the included papers, five were non-comparative, descriptive studies reporting the incidence of sensitisation in women receiving no anti-D rhesus prophylaxis following first trimester obstetric events (Katz & Marcus, 1973; Murray & Barron, 1971; Murray et al., 1970; Simonovits et al., 1980; Walsh & Lewis, 1970). The remaining three papers were comparative studies examining the effect of anti-D rhesus prophylaxis on outcomes. One randomised controlled trial compared 300 micrograms of anti-D rhesus prophylaxis with placebo, with the authors also reporting an additional prospective case series of nine women who did not receive any intervention (Visscher & Visscher, 1972). One study was a non-randomised trial, comparing anti-D rhesus prophylaxis (dose not stated) with placebo (Gavin, 1972). One prospective observational study compared outcomes in women who received anti-D rhesus prophylaxis following a previous therapeutic abortion with those who did not receive any prophylaxis (Simonovits et al., 1974).

No studies were found that evaluated the use of anti-D rhesus prophylaxis after a threatened miscarriage or ectopic pregnancy. Two studies evaluated outcomes in women who were diagnosed with a miscarriage (Katz & Marcus, 1973; Visscher & Visscher, 1972). Three studies had a mixed population, comprising women receiving surgery for a miscarriage and women undergoing a therapeutic abortion (Gavin, 1972; Murray & Barron, 1971; Murray et al., 1970). Three studies only included women having a therapeutic abortion (Simonovits et al., 1974; Simonovits et al., 1980; Walsh & Lewis, 1970). The GDG felt that, for this review, it was appropriate to include studies of women having a therapeutic abortion because of the lack of evidence in the populations of interest, the comparability of the surgical procedures and the fact that the outcomes of interest are biochemical rather than psychological.

Findings for the outcomes of interest reported are presented in two evidence profiles. The first profile includes the five non-comparative studies and the second includes the three comparative studies.

Evidence profile

Evidence statements

The evidence for each of the reported studies and outcomes is of very low quality.

Non-comparative data

(see Table 9.1)

Table 9.1. GRADE summary of findings for series of women receiving no anti-D rhesus prophylaxis (non-comparative data).

Table 9.1

GRADE summary of findings for series of women receiving no anti-D rhesus prophylaxis (non-comparative data).

Incidence of sensitisation at 5–9 months following miscarriage/abortion

One study found that the incidence of sensitisation was 2.8% among women who did not receive any prophylaxis following a miscarriage: however, the only case of sensitisation occurred in a woman who had a weak antibody titre on admission.

One study did not report any incidences of sensitisation (using the enzyme-Coombs screening procedure) among women who did not receive any prophylaxis following a miscarriage.

One study reported that among women who did not receive any prophylaxis following a miscarriage or therapeutic abortion the incidence of sensitisation was 2.1% using the indirect Coombs test and 9.4% using enzyme-treated cells.

One study reported that among women who did not receive any prophylaxis following a miscarriage or therapeutic abortion, the incidence of sensitisation was 4.3% using the indirect Coombs test, 8.7% using Low's papain and 13.0% using papainised cells.

One study reported that the incidence of sensitisation was 5.6% using the indirect Coombs test among women who did not receive any prophylaxis following a therapeutic abortion.

One study reported that the incidence of sensitisation was 20% among women who did not receive any prophylaxis following a miscarriage or therapeutic abortion: however, definitive proof that the miscarriage or therapeutic abortion was the cause of sensitisation was only available in 2/5 cases.

Evidence of sensitisation in subsequent pregnancy

One study reported that the incidence of sensitisation during a subsequent pregnancy in women who did not receive any prophylaxis following a therapeutic abortion was 0.8% using the indirect Coombs test and 1.6% using papain-treated red blood cells.

One study reported no incidences of sensitisation during a subsequent pregnancy (using the enzyme-Coombs screening procedure) in two women who did not receive any prophylaxis following a miscarriage.

Neonatal outcomes in sensitised women

One study found that three out of four women who were sensitised following a miscarriage delivered a hydropic infant or baby with hyperbilirubinemia in a subsequent pregnancy. The same study found that two out of three babies born to women sensitised after a miscarriage had a positive direct Coombs test.

Comparative data

(see Table 9.2)

Table 9.2. GRADE summary of findings for anti-D rhesus prophylaxis compared with no intervention or placebo (comparative data).

Table 9.2

GRADE summary of findings for anti-D rhesus prophylaxis compared with no intervention or placebo (comparative data).

Incidence of sensitisation at 4–6 months following miscarriage/abortion

One study did not find a statistically significant difference in the incidence of sensitisation for women receiving anti-D rhesus prophylaxis following a miscarriage or therapeutic abortion compared with women receiving a placebo. One further study did not report any incidences of sensitisation in women receiving anti-D rhesus prophylaxis following a miscarriage and women receiving a placebo.

Evidence of sensitisation in subsequent pregnancy

One study did not find a statistically significant difference in the incidence of sensitisation during subsequent pregnancies for women receiving anti-D rhesus prophylaxis following a therapeutic abortion compared with women receiving a placebo. One further study did not report any incidences of sensitisation during subsequent pregnancies in women receiving anti-D rhesus prophylaxis following a miscarriage and women receiving a placebo.

Evidence to recommendations

Please see recommendations in Section 9.3, where the evidence from all of the anti-D rhesus prophylaxis reviews has been considered.

9.3. Anti-D rhesus prophylaxis – dose

Review question

What is the appropriate dose of anti-D that should be administered to women with a threatened miscarriage, miscarriage or ectopic pregnancy in the first trimester?

Description of included studies

Three studies were included in this review (Hensleigh et al., 1977; Keith & Bozorgi, 1977; Stewart et al., 1978). All of the studies were randomised controlled trials conducted in the USA, and evaluated the administration of different doses of anti-D rhesus prophylaxis to women following first trimester therapeutic abortion. Two studies compared doses of 50 micrograms and 300 micrograms (Keith & Bozorgi, 1977; Stewart et al., 1978). The third study compared three different doses of 73, 155 and 499 micrograms (Hensleigh et al., 1977). No studies were identified that compared different doses following an ectopic pregnancy or miscarriage.

Evidence profile

Table 9.3. GRADE summary of findings for comparison of 50 micrograms and 300 micrograms of anti-D prophylaxis.

Table 9.3

GRADE summary of findings for comparison of 50 micrograms and 300 micrograms of anti-D prophylaxis.

Table 9.4. GRADE summary of findings for comparison of 73, 155 and 499 micrograms of anti-D prophylaxis.

Table 9.4

GRADE summary of findings for comparison of 73, 155 and 499 micrograms of anti-D prophylaxis.

Evidence statements

The evidence for each of the reported studies and outcomes is of very low quality.

Comparison of 50 and 300 micrograms

Detection of rhesus antibodies at 6 months

One meta-analysis of two studies did not find any incidences of rhesus antibody detection in women who received 50 micrograms or 300 micrograms of anti-D.

Adverse drug reaction

One meta-analysis of two studies did not find a statistically significant difference in the incidence of adverse drug reaction for women who received 50 micrograms of anti-D compared with women who received 300 micrograms of anti-D.

Comparison of 73, 155 and 499 micrograms

Incidence of sensitisation

One study did not find any incidences of sensitisation in women who received 73 micrograms, 155 micrograms or 499 micrograms of anti-D.

Adverse drug reaction

One study did not find any incidences of adverse drug reaction in women who received 73 micrograms, 155 micrograms or 499 micrograms of anti-D.

Evidence to recommendations

Relative value placed on the outcomes considered

For the review looking at the provision of anti-D rhesus prophylaxis, the key outcome of interest for the guideline development group (GDG) was the incidence of sensitisation following a miscarriage or therapeutic abortion, as it is this which anti-D rhesus prophylaxis is supposed to prevent. This included both sensitisation in the current pregnancy and sensitisation in subsequent pregnancies.

For the review looking at the appropriate dose, the key outcome was the effectiveness of the prophylaxis at different doses.

Trade-off between clinical benefits and harms

The group recognised that there is little harm associated with the provision of anti-D rhesus prophylaxis. While there is always a potential risk of transferring blood-borne disease when administering blood products, this risk is very low given the screening that is conducted before their use. The group was not aware of any other adverse outcomes associated with the use of anti-D rhesus prophylaxis and there was only one such outcome reported in the available evidence.

By contrast, the group recognised that there is a clear health benefit in avoiding sensitisation if possible. Sensitisation increases the chance of miscarriage in a later pregnancy and also increases the chance that subsequent babies will develop a range of conditions including fetal heart failure, hydrops (fluid retention), oedema, anaemia and rhesus disease. Rhesus disease, in turn, increases the chance of the baby developing kernicterus which can cause brain damage or even death.

Quality of evidence

The group recognised that all of the evidence available for this topic was of very low quality. There were only three studies looking at the use of anti-D rhesus prophylaxis which reported comparative data. None of the studies was very large and it is unlikely that any were sufficiently powered to detect a statistically significant difference. The group had hoped to see evidence in women with a threatened miscarriage and in women with ectopic pregnancy. However, none was available which met the inclusion criteria. All of the studies reported data in women with either a miscarriage (the vast majority of which were managed with surgery) or a therapeutic abortion. There was no evidence for women undergoing medical management of miscarriage and a very small proportion of women had a complete miscarriage without intervention.

For the question of the appropriate dose, again there were only three comparative studies. While one was relatively large, all were of very low quality.

Given the paucity of available evidence, the GDG's recommendations were mainly developed through the members' own clinical experience and that of the clinical adviser for this topic.

Trade-off between net health benefits and resource use

Although the quality of the evidence was very low for the descriptive studies, the group felt that, taken as a whole, there was evidence of a risk of sensitisation for women if they did not receive anti-D rhesus prophylaxis following a first trimester miscarriage or therapeutic abortion. The group recognised that the comparative studies did not show a statistically significant difference in the rate of sensitisation between women who did and did not receive anti-D rhesus prophylaxis. However, the group believed that the small size of the studies meant that this was unlikely to be a true finding of no effect.

The group was informed that the chance of sensitisation increases when there is a greater likelihood of mixing between the maternal and fetal blood. As a result, there is an increased risk of sensitisation when treating a miscarriage or ectopic pregnancy surgically.

Given the lack of evidence, the GDG did not feel it appropriate to recommend that women with a miscarriage or ectopic pregnancy that resolves spontaneously, without intervention, routinely receive anti-D rhesus prophylaxis. However, recognising the increased risk of sensitisation to women undergoing a surgical intervention, the group felt it appropriate to recommend that these women should receive prophylaxis.

The GDG considered the population of women who will receive medical management for their miscarriage or ectopic pregnancy. From the GDG members' clinical experience and understanding, the effect of misoprostol is to cause the body to mimic the physiological changes that occur during a spontaneously completing miscarriage. They felt that the risk of significant maternal and fetal blood mixing during methotrexate treatment for an ectopic pregnancy was likely to be low. Given this, they did not believe that it would lead to an increased risk of sensitisation, and thus agreed that women receiving medical management for either miscarriage or ectopic pregnancy should not be offered prophylaxis.

The evidence available for the review of the appropriate dose suggested that a 50 microgram dose (250 international units) of prophylaxis was as effective as a larger dose. Given this, and the fact that the 50 microgram dose is cheaper, the GDG agreed that this is the dose which should be provided.

Other considerations

The group noted from the evidence that some of the studies reported the use of a Kleihauer test in which the maternal blood is stained to detect the presence of cells containing fetal haemoglobin and the number of these cells is then manually counted. The group received expert advice that the accuracy of the test decreases at low levels of fetal haemoglobin (less than 1 cell in every 10,000). The group noted that at the time of gestation covered in the guideline, the levels of fetal haemoglobin were likely to be very low, and thus the Kleihauer test was unlikely to give an accurate result. This was supported by the data reported in the included studies, which showed low correlation between the Kleihauer test results and risk of sensitisation. Given this, the group agreed that this specific diagnostic test should not be used for this group of women.

Recommendations

NumberRecommendation
81Offer anti-D rhesus prophylaxis at a dose of 250 IU (50 micrograms) to all rhesus negative women who have a surgical procedure to manage an ectopic pregnancy or a miscarriage.
82Do not offer anti-D rhesus prophylaxis to women who:
  • receive solely medical management for an ectopic pregnancy or miscarriage or
  • have a threatened miscarriage or
  • have a complete miscarriage or
  • have a pregnancy of unknown location.
83Do not use a Kleihauer test for quantifying feto–maternal haemorrhage.
NumberResearch recommendations
RR 9Does the administration of anti-D rhesus prophylaxis following pain and bleeding in early pregnancy improve outcomes? Outcomes should include rhesus sensitisation in the woman attributable to the early pregnancy event and morbidity related to rhesus disease in subsequent unborn and newborn babies.
Copyright © 2012, National Collaborating Centre for Women's and Children's Health.

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Bookshelf ID: NBK132765
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