Pharmacological interventions for treating intrahepatic cholestasis of pregnancy

Maternal

• Pruritus (scores, change in score, improvement)

Fetal/neonatal

• Stillbirths or neonatal deaths

• Fetal distress/asphyxial events

Maternal

• Liver function, as measured by serum bile acid and serum ALT

• Caesarean section

• Postpartum haemorrhage

• Adverse effects of medication

Fetal/neonatal

• Meconium‐stained liquor

• Mean gestational age at birth

• Spontaneous birth at less than 37 weeks

• Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

• Admission to neonatal intensive care unit

Ursodeoxycholic acid (UDCA) versus placebo

(Chappell 2012; Chappell 2019; Diaferia 1996; Glantz 2005; Joutsiniemi 2014; Leino 1998; Liu 2006; Nicastri 1998; Palma 1997; Wang 2003)

Participants in Leino 1998 received UDCA 450 mg/day in two doses for 14 days.
The treatment and control interventions were identical in two studies (Diaferia 1996 and relevant arms of Nicastri 1998): 600 mg/day UDCA, or placebo (vitamin) given in two oral doses for 20 days (given after 30 weeks' gestation in Diaferia 1996).
Participants in Glantz 2005 and Palma 1997 received a higher dose of UDCA or placebo over a longer period of time. UDCA 1000 mg/day or placebo was given as a single daily dose for three weeks in Glantz 2005 and as three divided doses or placebo (starch) in Palma 1997.
In Liu 2006, women received UDCA (18 mg/kg body weight) three times a day for two weeks. The control group received a combination of 10% glucose, vitamin C and Inosine for two weeks. It is unclear whether the interventions were administered orally or by a parenteral route.
Participants in Chappell 2012 received UDCA 1000 mg daily increased in increments of 500 mg daily every three to 14 days up to a maximum UDCA dose 2000 mg/day if no biochemical or clinical improvement was observed.
Participants in Chappell 2019 received UDCA 1000 mg daily or a placebo increased in increments of 500 mg daily every three to 14 days up to a maximum of 2000 mg daily if no biochemical or clinical improvement was observed.
Participants in Joutsiniemi 2014 received UDCA 450 mg daily or a placebo for 14 days.
Participants in Wang 2003 received UDCA 1.5 g daily for seven days or nothing (i.e. an open‐label trial).

S‐adenosylmethionine (SAMe) versus placebo

(Frezza 1984; Frezza 1990; Nicastri 1998; Ribalta 1991)

In these studies, SAMe 800 mg dissolved in a 500 mL solution of saline (Frezza 1984), 5% dextrose (Frezza 1990; Nicastri 1998) or 5% glucose (Ribalta 1991) was administered as a daily dose intravenously (IV) over the course of three (Ribalta 1991) or four hours (Frezza 1984). The duration of administration was not reported in two studies (Frezza 1990; Nicastri 1998).
A lower dose of SAMe 200 mg/day was also compared with placebo (Frezza 1984). The intervention was administered up to the day of delivery (Frezza 1984; Frezza 1990) or for a maximum of 20 days (Nicastri 1998; Ribalta 1991).
Placebo treatment was either 5% dextrose solution (Frezza 1990), mannitol (800 mg) in a 5% glucose solution (Ribalta 1991), saline solution (Frezza 1984) or a vitamin solution (Nicastri 1998).

Guar gum versus placebo

(Riikonen 2000)

Guar gum or placebo (wheat flour) at doses from 5 to 15 g/day (increases in dosage occurring at three‐day intervals) were given in three intermittent doses up until delivery. For the participants to be included in the intervention analysis, they had to take guar gum or placebo for at least 10 days.

Activated charcoal versus no treatment

(Kaaja 1994)

Activated charcoal as a water suspension was given in a dose of 50 g three times a day for eight days.

Dexamethasone versus placebo

(Glantz 2005)

Dexamethasone 12 mg/day was administered as a single daily oral dose for a week, followed by placebo for two weeks. Women in the control group took a single dose of placebo every day for three weeks.

Ursodeoxycholic acid (UDCA) versus S‐adenosylmethionine (SAMe)

(Binder 2006; Floreani 1996; Nicastri 1998; Roncaglia 2004; Zhang 2012; Zhang 2015)

These studies differed by dose, administration and duration of intervention.
Binder 2006 used the highest dose of UDCA (750 mg/day) and this was administered orally three times a day until birth.
In Nicastri 1998 and Roncaglia 2004, 600 mg/day of UDCA was administered as two oral daily doses for 20 days or until delivery respectively.
In Floreani 1996, UDCA was given as a single oral dose of 450 mg/day until delivery.

Binder 2006, Floreani 1996, and Roncaglia 2004 administered 1000 mg/day of SAMe but the routes of administration and duration of intervention were different. In Binder 2006, SAMe 500 mg was administered IV twice daily for 12 days and subsequently as 500 mg twice daily oral dose until delivery. In Floreani 1996, SAMe was administered as a single intramuscular (IM) injection daily until birth. In Roncaglia 2004, it was given in two doses by oral route until delivery.
In Nicastri 1998, 800 mg/day of SAMe was administered daily in two doses as IV infusions. These were given for a maximum of 20 days.

In Zhang 2012 UDCA (250 mg given orally four times a day) was compared with SAMe (1000 mg IV four times daily) alone.
In Zhang 2015 UDCA (250 mg given orally four times a day) was compared with SAMe (1 g IV daily).

Ursodeoxycholic acid (UDCA) versus dexamethasone

(Glantz 2005)

UDCA 1000 mg was administered as a daily single daily oral dose for three weeks. This was compared with dexamethasone 12 mg/day given as a single oral dose for one week and placebo during weeks two and three.

Ursodeoxycholic acid (UDCA) versus cholestyramine

(Kondrackiene 2005)

UDCA (8 to 10 mg/kg body weight a day) was compared with cholestyramine (8 g/day). Both treatments were administered orally for two weeks.

Yinchenghao decoction (YCHD) versus S‐adenosylmethionine (SAMe)

(Huang 2004)

YCHD given twice daily orally for three weeks was compared with SAMe IV infusion of 2 x 500 mg daily for three weeks.

Ursodeoxycholic acid and S‐adenosylmethionine (UDCA+SAMe) versus placebo

(Nicastri 1998)

UDCA (600 mg/day, in two oral doses) plus SAMe (in the stable form of sulphate‐P‐toluenesulphonate diluted in 500 mL 5% dextrose and divided into two IV infusions (800 mg/day)) were compared with placebo (vitamin) administered for a maximum of 20 days.

Ursodeoxycholic acid and S‐adenosylmethionine (UDCA+SAMe) versus S‐adenosylmethionine (SAMe)

(Binder 2006; Nicastri 1998; Zhang 2012; Zhang 2015)

In Nicastri 1998, UDCA (600 mg/day, in two oral doses) plus SAMe ( in the stable form of sulphate‐P‐toluenesulphonate diluted in 500 mL 5% dextrose and divided into two IV infusions (800 mg/day)) were compared with SAMe (as sulphate‐P‐toluenesulphonate diluted in 500 mL 5% dextrose and divided into two IV infusions (800 mg/day) administered for a maximum of 20 days.
In Binder 2006, UDCA (3 x 250 mg/day oral doses until delivery) plus SAMe (2 x 500 mg/day given by slow infusion for 14 days) was compared with SAMe (2 x 500 mg/day given by slow infusion for 14 days) alone.
In Zhang 2012, UDCA plus SAMe (dose not stated) was compared with SAMe (1000 mg IV four times daily) alone.
In Zhang 2015 UDCA (250 mg given orally four times a day) plus SAMe (1 g IV daily) was compared with SAMe (1 g IV daily).

Ursodeoxycholic acid and S‐adenosylmethionine (UDCA+SAMe) versus ursodeoxycholic acid (UDCA)

(Binder 2006; Luo 2008; Nicastri 1998; Sun 2014; Zhang 2012; Zhang 2015)

In Binder 2006, UDCA (3 x 250 mg/day oral doses until delivery) plus SAMe (2 x 500 mg/day given by slow infusion for 14 days) was compared with UDCA (3 x 250 mg/day oral doses until delivery) alone.
In Zhang 2012, UDCA plus SAMe (dose not stated) was compared with UDCA (250 mg given orally four times daily) alone.
In Nicastri 1998, UDCA (600 mg/day, in two oral doses) plus SAMe (800 mg sulphate‐P‐toluenesulphatonate diluted in 500 mL 5% dextrose, in two IV infusions) was compared with UDCA (600 mg/day, in two oral doses) alone administered for a maximum of 20 days.
In Luo 2008, SAMe (Transmetil 1 g added to 250 mL 5% glucose administered as an IV infusion once daily) plus UDCA (250 mg oral pill twice daily) were compared with UDCA pill alone (250 mg oral pill twice daily) for 10 days. Participants in both groups received dexamethasone (10 mg once a day orally) for three days before starting the study drugs.
In Sun 2014 UDCA (250 mg twice a day orally) combined with SAMe (1 g daily IV) was compared with UDCA (250 mg twice a day orally).
In Zhang 2015 UDCA (250 mg given orally four times a day) plus SAMe (1 g IV daily) was compared with UDCA (250 mg given orally four times a day).

Ursodeoxycholic acid (UDCA)+Salvia versus ursodeoxycholic acid (UDCA)

(Fang 2009)

Salvia (10 mL in 10% 500 mL dextrose IV injection) and ursodeoxycholic acid (15 mg/kg/day divided into three oral doses a day) was compared with UDCA (same dose as above) only. Both were used for 14 days.

Danxioling pill (DXLP) versus Yiganling

(Shi 2002)

DXLP 9 g/day given three times a day orally for seven days was compared with Yiganling tablets given as four tablets three times a day for seven days.

Pruritus

All nine trials (1037 women) comparing UDCA and placebo reported this outcome. Four studies (830 women) used a 100 mm visual analogue scale (VAS), four studies (105 women) evaluated itching on a 0 ‐ 4 categorical scale, and one study (18 women) did not elaborate on the methods used to assess pruritus. Studies that used the 0 ‐ 4 scale (0 = absence of pruritus, 1 = occasional pruritus, 2 = discontinuous pruritus every day, with prevailing asymptomatic lapses, 3 = discontinuous pruritus with prevailing symptomatic lapses, and 4 = constant pruritus) analysed the data as a continuous outcome, which is not ideal as the assumption of normality on a short scale will not be met. We therefore planned to dichotomise the data by classifying a pruritus score of 0 ‐ 2 as mild pruritus, and 3 ‐ 4 as severe pruritus. We also planned to dichotomise pruritus outcomes after the end of the intervention as 'improvers' and 'non‐improvers'. Only Palma 1997 allowed dichotomisation of data. We could not pool dichotomous results from any of these trials, due to the differing methods of measuring and reporting pruritus.

We were only able to pool results from two studies (Chappell 2012; Chappell 2019) out of three reporting a pruritus score using a 100 mm VAS. Pooled results from the two studies (715 women) reported a small reduction in pruritus score (out of 100) for UDCA compared with placebo: mean difference (MD) −7.64, 95% confidence interval (CI) −9.69 to −5.60; moderate‐certainty evidence; Analysis 1.1. It is worth noting that the 95% CI around the effect was only 9 mm, i.e. smaller than the minimum worthwhile treatment effect for most participants and doctors surveyed.

Results that we were able to pool or present in forest plot or combine in meta‐analysis:

• In Palma 1997, a weekly assessment of pruritus was performed in all the study participants by the same clinician using the 0 ‐ 4 scoring system. They reported a significant improvement in pruritus score after two weeks (P < 0.01; 15 women) and three weeks (P = 0.02; 15 women) of treatment with UDCA compared with placebo. Data for improvement in pruritus score were presented in a forest plot as a graph, although they represent findings from a single study. Similar numbers of women (seven of the eight women in the UDCA group and five of the seven women in the placebo group) showed a reduction in pruritus score after three weeks (risk ratio (RR) 1.23, 95% CI 0.72 to 2.10; Analysis 1.2); all seven 'improvers' in the UDCA group had low scores (under 1.5) compared with two of the five 'improvers' in the placebo group.

• Chappell 2012 prespecified in their trial protocol, published before data unblinding, that their primary outcome was to be the mean of all worst itching scores in the preceding 24 hours (100 mm VAS) measured between randomisation and delivery. The authors of this trial surveyed participants and obstetricians: each group considered that the mean minimum worthwhile improvement would be a 30 mm difference, reported within the main trial publication.bChappell 2012 reported the mean of average itching scores over the preceding 24 hours between randomisation and delivery, and showed a small reduction in pruritus (MD −18.60, 95% CI −27.52 to −9.68; (Analysis 1.3)), but the 95% CI around the effect was still less than 30 mm.

We were unable to pool the results or present the data in forest plots for the following trials, and have therefore summarised the findings as reported by the studies:

• In Diaferia 1996, pruritus was assessed before treatment (day 0) and at five‐day intervals thereafter, on a 0 ‐ 4 scale. Pruritus score was reported as mean and standard deviation (SD) at day 0 and day 20, favouring UDCA over placebo.

• In Glantz 2005, no difference in pruritus score (100 mm VAS) was seen between the UDCA and placebo groups after three weeks of treatment (94 women; no P value reported). However, in the 23 women with serum bile acids at least 40 μmol/L (subsequently defined as severe cholestasis), the pruritus score fell to a mean of about 15 in the UDCA group compared with a mean of about 52 in the placebo group.

• In Joutsiniemi 2014 (20 women), the pruritus score fell to a mean of 2.5 in the UDCA group compared with a mean of 7.5 in the placebo group. No SDs were reported in the paper.

• Leino 1998 reported a significant improvement in pruritus scores within two weeks in the UDCA group.

• In Liu 2006, pruritus was evaluated on a 0 ‐ 4 scale. Results were reported as mean and SD at trial entry and two weeks later. After 14 days of treatment, a reduction in the pruritus scores was observed in the UDCA group compared with the placebo group.

• In Nicastri 1998, pruritus was evaluated by the participant every three days up to 24 hours after delivery using the 0 ‐ 4 scoring system. The change in pruritus score after 20 days of treatment was analysed as a continuous outcome and reported as mean and SD. A significant reduction in pruritus score was observed with both the UDCA and placebo groups.

• In Wang 2003, itching was reported on a four‐point scale (0 = none, 1 = mild, 2 = moderate not requiring drug treatment, 3 severe requiring drug treatment). The timing was not reported. Treatment with UDCA appeared to have a large effect. Distribution was from 'no treatment' 14 women with moderate and eight women severe itch versus 'UDCA' in which four women had moderate itch and none severe itch.

Stillbirth

Six studies (955 women) reported stillbirth, with zero events in both groups for two studies (Chappell 2012; Joutsiniemi 2014).  The evidence is very uncertain about the effect of UDCA on stillbirth because of limitations in study design and very few events reported: four out of the six studies reported seven stillbirths in total, (1/480 versus 6/475; average RR 0.33, 95% CI 0.08 to 1.37; random‐effects analysis; 955 women; very low‐certainty evidence; Analysis 1.4).

In Wang 2003, two women had "fetal death", classified by us as stillbirth, in the no‐treatment group. We rated the study as being at high risk of bias in most domains, with many expected data items missing, and a number of the other reported results deemed by us as implausible.

In Glantz 2005, a woman on clomipramine for long‐term depressive disorder experienced itching from 33 weeks' gestation. After going into spontaneous labour at week 38, intrauterine death was diagnosed. Her serum bile acid concentrations were 16 µmol/L, both at trial inclusion and two weeks later. It is unclear from the information provided in the report whether the stillbirth could be attributable to intrahepatic cholestasis of pregnancy.

In Palma 1997, the woman with a stillbirth had received placebo for two weeks. The authors wrote: "Minor signs of fetal distress had been noticed a few hours before fetal death, but the decision to perform a caesarean section was wrongly delayed and fetal death occurred".

In Chappell 2019, three women (of 605) had a stillbirth, i.e. in one woman taking UDCA and two women taking placebo. In the two women in the placebo group, one woman who had a peak bile acid of 80 µmol/L, and also had influenza A confirmed by throat swab at the time of stillbirth at 37 weeks. The other woman had a peak bile acid of 21 µmol/L and had a stillbirth at 35 weeks.

No neonatal deaths were reported.

Fetal distress/asphyxial events

Six of the nine trials comparing UDCA with placebo reported fetal distress or asphyxial events or both in some form, although the evidence is very uncertain about the effect of UDCA because of limitations in study design and very little data reported (average RR 0.70, 95% CI 0.35 to 1.40; random‐effects analysis; Tau² = 0.25; I² = 34%; 6 trials, 944 women; very low‐certainty evidence; Analysis 1.5).

In Diaferia 1996 and Palma 1997, this outcome included women who had operative births for fetal distress, and in Liu 2006 it was defined as abnormal results of antepartum testing prompting delivery. Glantz 2005 defined asphyxial events as all operative births due to asphyxia, umbilical arterial pH less than 7.05 or Apgar score less than seven at five minutes. In Liu 2006 one baby from the UDCA group and seven babies from the placebo group were reported to have asphyxia neonatorum (which was not clearly defined in the paper). Chappell 2012 reported asphyxial events defined as induction or caesarean section for fetal compromise.

Subgroup analysis (serum bile acid concentrations ≥ 40 µmol/L versus serum bile acid concentrations < 40 µmol/L)

Glantz 2005 presented data for the subgroups of serum bile acids equal to or greater than 40 µmol/L (RR 0.31, 95% CI 0.01 to 6.85; 23 women) versus serum bile acids less than 40 µmol/L (RR 1.03, 95% CI 0.15 to 6.90; 71 women) for one of this review's primary outcomes (asphyxial events). We acknowledge that there were too few data included in this analysis to identify any differences between subgroups (Analysis 1.6), (test for subgroup differences: Chi² = 0.42, df = 1 (P = 0.52), I² = 0%).

Biochemical assessments

Two trials reported a reduction in serum bile acids after treatment with UDCA compared with placebo (MD −20.45, 95% CI −26.07 to −14.84; 2 trials, 519 women; Analysis 1.7). Nicastri 1998 (32 women) reports a reduction in serum bile acids after treatment with UDCA compared with placebo (MD −30.40, 95% CI −37.48 to −23.32; 16 women; Analysis 1.7). Although the I² score of 95% suggests a high level of heterogeneity between these trials, there is no obvious explanation for this in the two papers, nevertheless, in view of this, these results should be interpreted with caution.

Serum alanine aminotransferase (ALT) concentrations were lower after treatment with UDCA compared with placebo in four trials (581 women) (average MD −68.73 IU/L, 95% CI −104.09 to −33.38; random‐effects analysis; Analysis 1.8). Analysis 1.9 is presented as change data. Although ALT changed in the same direction in both trials, the size of the change is much larger in Nicastri 1998, such that the I² score is 96%. Although there is no obvious explanation in the two papers, in view of this, these results should be interpreted with caution.

Glantz 2005 reported liver function tests only graphically, as medians and P values. The final serum bile acid concentrations were lower after treatment in the UDCA group compared with the placebo group (P = 0.001). There was a greater reduction in serum ALT in the UDCA group compared with the placebo group (P = 0.01). Leino 1998 reported a reduction in serum ALT and bile acid concentrations to the upper limit of normal pregnancy values in the UDCA group, but did not report numerical or graphical data by randomisation group.

Caesarean section (and mode of birth)

Five trials found little to no differences between UDCA and placebo for rates of caesarean section (RR 1.05, 95% CI 0.89 to 1.23; 5 trials, 850 women; Analysis 1.10). Glantz 2005 did not report caesarean births but did indicate that rates of elective birth (both caesarean and vaginal) were not very different between the two groups (32% for UDCA and 38% for placebo).

Postpartum haemorrhage

There was little to no difference in the rates of postpartum haemorrhage in three trials reporting this outcome (RR 0.94, 95% CI 0.76 to 1.15; 731 women; Analysis 1.11).

Adverse effects of medication

Four trials reported on adverse effects of medication (Chappell 2012; Chappell 2019; Glantz 2005; Palma 1997). There was little to no difference between the two groups (RR 0.80, 95% CI 0.56 to 1.14; 4 trials, 824 women; Analysis 1.12).

No adverse effects of medication for mothers or babies in either group were reported in four trials (Leino 1998; Liu 2006; Nicastri 1998;Diaferia 1996).

In Glantz 2005, one participant in the UDCA group experienced diarrhoea and one in the placebo group suffered a severe headache. Palma 1997 reported that one woman in the UDCA group experienced transient morning nausea and mild vomiting, which resolved after changing the time of UDCA intake. Chappell 2012 reported 13 adverse events (seven mild, six moderate) in the treatment group and 10 in the placebo group (eight mild, two moderate). The drug was stopped due to adverse events of medication in one participant in the treatment group and one in the placebo group.

Chappell 2019 reported 33 adverse events of medication (31 adverse events, two serious adverse events) in the treatment group and 48 (42 adverse events, six serious adverse events) in the placebo group. The drug was stopped due to adverse events of medication in one participant in the placebo group who experienced a serious adverse event. See Analysis 1.12. It seems odd that there were more adverse events in the placebo group; this must be a chance effect.

Meconium‐stained liquor

There may be a reduction in the observation of meconium‐stained liquor with UDCA compared with placebo groups according to four trials in the pooled analysis (average RR 0.63, 95% CI 0.39 to 1.00; random‐effects analysis: Tau² = 0.11; I² = 51%; 4 trials, 910 women; Analysis 1.13).

Mean gestational age at birth

In five trials there was a small increase in gestational age at birth in the UDCA group (average MD 1.50 weeks, 95% CI 0.20 to 2.80; random‐effects analysis: Tau² = 2.53; I² = 90%; 5 trials, 800 women; Analysis 1.14). However, given the high heterogeneity (I² = 90%) between the trials for this outcome, we tested the effect of removing the three smallest trials, leaving only the two Chappell trials. The heterogeneity remained at 69%, but the 95% CI for the mean difference (MD 0.36, 95% CI −0.30 to 1.03) included no effect on gestational age at birth (data not reported).

Leino 1998 reported a higher birthweight in the UDCA group coinciding with advanced gestation at birth in this group, but did not report any numerical data in the comparison groups.

Spontaneous birth at less than 37 weeks

In three trials, little to no difference was seen in rates of spontaneous preterm birth at less than 37 weeks between the UDCA and placebo groups (RR 0.78, 95% CI 0.49 to 1.23; 3 trials, 749 women; Analysis 1.15). Nicastri 1998 reported that two women in the UDCA group had spontaneous preterm labour but did not report this outcome for the women in the placebo group.

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

Three trials (two different from the three reporting spontaneous preterm birth above) reported the total number of preterm births at less than 37 weeks of gestation. There were fewer total preterm births in the UDCA group compared with placebo (average RR 0.60, 95% CI 0.37 to 0.97; random‐effects analysis: Tau² = 0.10; I² = 55%; 3 trials, 819 women; Analysis 1.16).

The I² is high at 55%, so we tested the effect of removing the smallest trial (Liu 2006), leaving Chappell 2012 and Chappell 2019. When we did this the I² was 48% (RR 0.69, 95% CI 0.46 to 1.06). In view of this, although the result was still consistent with a reduction, the upper 95% CI was also compatible with a slight increase in total preterm births, and so we are less certain of the findings.

Admission to neonatal unit

Two trials reported little to no difference in admission rates to the neonatal intensive care unit between the UDCA and the placebo groups (RR 0.77, 95% CI 0.55 to 1.08; 2 trials, 764 women; Analysis 1.17).

Pruritus

Four trials (82 women) reported this outcome. Frezza 1990 (30 women) reported improvements in pruritus score with SAMe, whereas Frezza 1984 (18 women) reported reduction in pruritus with 800 g daily dose of SAMe but not with 200 g daily dose. Two studies (Nicastri 1998; Ribalta 1991) (34 women) reported an improvement in the pruritus score with both SAMe and placebo. None of these studies performed a subgroup analysis for improvement in pruritus in women with bile acids ≥ 40 µmol/L.

Three studies (52 women) evaluated itching on a 0 ‐ 4 scale. Data were reported as mean and SD. We planned to dichotomise and re‐analyse the data but this was not possible because pruritus scores at trial entry and after intervention were not reported.

• Frezza 1984 assessed pruritus on day 0 (before entering the study), and at days 10 and 20 of treatment. Pruritus was graded from 0 to 4. The reductions in mean grade of pruritus score after 10 and 20 days of treatment were analysed and presented as a continuous outcome. A reduction in pruritus grade was reported with 800 g daily dose of SAMe (P < 0.02 after day 10 and < 0.01 after day 20), compared with placebo, but not for the 200 g daily dose.

• Frezza 1990 assessed pruritus on a 10 cm analogue scale every three days up to 24 hours after delivery. The authors reported the mean pruritus scores after treatment as lower (better) in the SAMe group compared with the placebo group (P < 0.01; 30 women), but gave no numerical data.

• Nicastri 1998 evaluated pruritus on a 0 ‐ 4 scale every three days. The mean changes in pruritus score in the two groups were reported as a continuous outcome. A reduction in mean pruritus score was seen both in the SAMe group (P < 0.01; 8 women) and in the placebo group (P < 0.01; 8 women).

• Ribalta 1991 assessed the severity of pruritus on a 0 ‐ 4 scale immediately before treatment and every five days until delivery, one to three days after delivery and one to three months afterwards. The scores were analysed as a continuous outcome. The severity of pruritus was reduced in both groups, with the mean pruritus score decreasing more in the placebo group, but this difference was not large.

Stillbirth/neonatal death

Ribalta 1991 (18 participants) reported this outcome, with no stillbirths or neonatal deaths (Analysis 2.1).

Fetal distress/asphyxial events

In Frezza 1984, all the infants born to women in the SAMe group had Apgar scores of seven or above at five minutes. They did not report these figures for the placebo group, making comparisons impossible.

All the newborns in Ribalta 1991 had Apgar scores of seven or above in both the groups. Caesarean sections were performed for various indications in this trial, including fetal distress, but the actual number of caesarean sections for this indication was not specified.

Biochemical assessments

In Nicastri 1998 (16 women), reductions in serum bile acids, and serum ALT were greater in the SAMe group compared with placebo (Analysis 2.2; Analysis 2.3). In Frezza 1984, the final values of serum transaminases, conjugated bilirubin and total bile acids were reported to be lower in women treated with SAMe 800 mg a day than in women who received placebo (total of 12 women for this comparison). In Frezza 1990 (30 women), after a mean 18 days of treatment with SAMe, serum total bile acids, ALT and AST were all reported to be lower than in the placebo group (P = 0.01 for all three comparisons). Ribalta 1991 (18 women) reported no differences in results of the various liver function tests, but these were only presented in graphical form.

Caesarean section

There were few to no differences in Ribalta 1991 between the SAMe and placebo groups for caesarean section (RR 1.14, 95% CI 0.75 to 1.74; 18 women; Analysis 2.4).

Adverse effects

Frezza 1984 reported that SAMe was well tolerated by women and that no adverse effects were seen, and Frezza 1990 recorded no adverse effects for women or their children. Ribalta 1991 reported that one woman experienced problems in peripheral veins due to prolonged daily IV infusions.

Spontaneous labour/birth at less than 37 weeks

Frezza 1990 reported that two women in the SAMe group and five in the placebo group had preterm labour before 37 weeks (RR 0.40, 95% CI 0.09 to 1.75; 30 women; Analysis 2.5). Nicastri 1998 reported three preterm births in the SAMe group but did not state how many there were in the placebo group. Ribalta 1991 reported the total preterm births (see below) but did not specify the number of spontaneous preterm births.

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

Six women in the SAMe group in Ribalta 1991 versus eight in the placebo group had preterm births (RR 0.75, 95% CI 0.45 to 1.26; 18 women; Analysis 2.6).

The following secondary outcomes were not reported for this comparison: postpartum haemorrhage, meconium‐stained liquor, mean gestational age at birth, or admission to neonatal unit.

Pruritus

In Riikonen 2000 both investigators and participants assessed change in pruritus following treatment. From the women's perspective, nine (48%) women receiving guar gum and five (25%) receiving placebo experienced a reduction in pruritus (RR 1.89, 95% CI 0.77 to 4.64; Analysis 3.1). From the investigator's perspective, six (32%) women receiving guar gum and five (25%) receiving placebo had a reduction in pruritus (RR 1.26, 95% CI 0.46 to 3.46; Analysis 3.1). There were few to no differences between groups.

Stillbirth/neonatal death

No neonatal or infant deaths were reported.

Fetal distress/asphyxial events

This outcome was not reported.

Biochemical assessments

There were few to no differences seen in Riikonen 2000 between guar gum and placebo in reducing the concentrations of serum bile acids (µmol/L) (MD −7.40, 95% CI −24.22 to 9.42; 39 women; Analysis 3.2) and serum ALT (U/L) (MD −37.50, 95% CI −137.33 to 62.33; 39 women; Analysis 3.3).

Adverse effects of medication

Eight women (42%) in the guar gum group and six (30%) in the placebo group reported mild abdominal distress, diarrhoea and flatulence during the first days of treatment, showing little to no difference overall (RR 1.40, 95% CI 0.60 to 3.29; Analysis 3.4). None of the participants discontinued the study.

Mean gestational age at birth

The mean gestational age for women in the guar gum group was 38.40 weeks and 38.30 weeks for placebo (MD 0.10 weeks, 95% CI −0.73 to 0.93; Analysis 3.5).

The following secondary outcomes were not reported for this comparison: caesarean section, postpartum haemorrhage, meconium‐stained liquor, spontaneous or total preterm birth, or admission to neonatal unit.

Pruritus

Participants maintained a daily written record of pruritus using four‐point scale. Four (40%) women taking activated charcoal compared with none in the no‐treatment group reported relief of itching after eight days follow‐up. There was little to no difference between groups (RR 9.00, 95% CI 0.55 to 147.95; 20 women; Analysis 4.1).

Stillbirth/neonatal death

Outcome not reported.

Fetal distress/asphyxial events

Outcome not reported.

Biochemical assessments

After eight days of treatment, seven (70%) women taking activated charcoal compared with one (10%) woman in the no‐treatment group had decreased serum bile acid concentrations (MD −45.20 µmol/L, 95% CI −74.31 to −16.09; 20 women; Analysis 4.2). However, there were few to no differences between charcoal and no treatment in final serum ALT concentrations (MD 74.60, 95% CI −141.33 to 290.53; 20 women; Analysis 4.3).

Adverse effects of medication

Some participants reported that they found the charcoal suspension unpleasant to swallow. Some reported that their stools were black (as expected).

Mean gestational age at birth

There was little to no difference in mean gestation at birth between the two groups (MD −1.00 week, 95% CI −2.77 to 0.77; Analysis 4.4).

The following secondary outcomes were not reported for this comparison: caesarean section, postpartum haemorrhage, meconium‐stained liquor, spontaneous or total preterm birth, or admission to neonatal unit.

Pruritus

No difference in pruritus score (100 mm VAS) was seen between the dexamethasone and placebo groups after three weeks treatment (83 women; no P value reported).

Stillbirths

One stillbirth was reported in the placebo group and none in the dexamethasone group (RR 0.43, 95% CI 0.02 to 10.31; 83 women; Analysis 5.1).

Fetal distress/asphyxial events

Asphyxial events included operative birth due to asphyxia, arterial umbilical pH less than 7.05 and Apgar score of less than seven at five minutes. Four (11%) babies born to women receiving dexamethasone suffered asphyxial events compared with two (4%) babies born to women who received placebo (RR 2.61, 95% CI 0.51 to 13.47; 83 women; Analysis 5.2).

Subgroup analysis (bile acid levels ≥ 40 µmol/L versus bile acid levels < 40 µmol/L)

Glantz 2005 presented data for the subgroups of bile acids equal to or greater than 40 µmol/L versus bile acids less than 40 µmol/L for one of our primary outcomes (fetal distress/asphyxial events) (Analysis 5.3). There were no differences between subgroups (test for subgroup differences: Chi² = 0.69, df = 1 (P = 0.40), I² = 0%).

Biochemical assessments

Liver function tests were reported only graphically in Glantz 2005, as medians and P values. The final serum bile acid concentrations were significantly reduced in the dexamethasone group compared with placebo overall (P = 0.01); and also in the women with severe cholestasis (serum bile acid equal to or greater than 40 µmol/L) (P = 0.01). For serum ALT concentrations, there was not a greater reduction in the dexamethasone group compared with the placebo group overall.

Caesarean section

Glantz 2005 did not report caesarean births but did indicate that rates of elective birth (both caesarean and vaginal) did not differ between the two groups (33% for dexamethasone and 38% for placebo).

Adverse effects of medication

One woman on dexamethasone suffered nausea, dizziness and stomach pain. One woman receiving placebo complained of severe headache.

Meconium‐stained liquor

There were few to no differences for meconium‐stained liquor between dexamethasone and placebo (RR 1.00, 95% CI 0.56 to 1.78; 83 women; Analysis 5.4). Similarly, the results were few to no differences in the 'severe' subgroup, with five out of 11 women receiving dexamethasone having meconium‐stained liquor compared with six out of 11 women receiving placebo (RR 0.83, 95% CI 0.36 to 1.94; Analysis 5.4).

Spontaneous birth at less than 37 weeks

There were few to no differences between dexamethasone and placebo for spontaneous preterm birth at less than 37 weeks' gestation (RR 1.52, 95% CI 0.21 to 10.90; random‐effects analysis: Tau² = 1.56; I² = 77%; 83 women; Analysis 5.5) or for the subgroup of women with severe (serum bile acid equal to or greater than 40 µmol/L) cholestasis (RR 0.60, 95% CI 0.19 to 1.92; 22 women; Analysis 5.5). There was evidence for a difference between subgroups (test for subgroup differences: Chi² = 4.10, df = 1 (P = 0.04), I² = 75.6%), suggesting a higher rate of spontaneous preterm birth with dexamethasone for lower bile acid concentrations than for higher concentrations.

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

There were few to no differences between dexamethasone and placebo (RR 1.16, 95% CI 0.26 to 5.10; random‐effects analysis: Tau² = 0.88; I² = 77%: 83 women; Analysis 5.6). Four of 11 women receiving dexamethasone versus seven of 11 women receiving placebo in the severe subgroup (serum bile acid equal to or greater than 40 µmol/L) had a preterm birth (RR 0.57, CI 0.23 to 1.41; 22 women; Analysis 5.6). There was evidence for a difference between subgroups, (test for subgroup differences: Chi² = 4.11, df = 1 (P = 0.04), I² = 75.7%), again suggesting a higher rate of spontaneous preterm birth with dexamethasone for lower bile acid concentrations than for higher concentrations.

For this comparison the following secondary outcomes were not reported: postpartum haemorrhage, mean gestational age at birth or admission to neonatal unit.

Pruritus

Nicastri 1998 reported a greater fall in pruritus score on a 0 ‐ 4 scale with both interventions (P < 0.01). Results were analysed as a continuous outcome. Dichotomisation of data for re‐analysis was not possible because results were presented as mean and SD. Zhang 2012 reported symptomatic improvements in pruritus in both groups, but did not report the actual scores and stated that the differences were not statistically significant. Zhang 2015 reported symptomatic improvements in pruritus in both groups at one week (MD ‐0.31, 95% CI ‐0.61 to ‐0.01; Analysis 6.2) and two week post‐treatment (MD ‐0.38, 95% CI ‐0.82 to 0.06; Analysis 6.3).

The other three trials reported the number of women with improved pruritus after treatment: Binder 2006 on a 10‐point scale, and Floreani 1996 and Roncaglia 2004 on four‐point scales. Improvements were seen favouring the UDCA group in comparison to the SAMe group in the following categories: any improvement (average RR 1.46, 95% CI 0.83 to 2.59; I² = 67%; 3 trials, 117 women); marked improvement (RR 1.73, 95% CI 1.00 to 2.98; 1 trial, 51 women); complete resolution (RR 21.00, 95% CI 1.40 to 315.98; 1 trial, 20 women); and complete resolution or marked improvement (average RR 4.68, 95% CI 0.26 to 83.44; I² = 78%; 2 trials, 71 women). However, we found substantial statistical heterogeneity in the analyses for any improvement and complete or marked improvement, so we used a random‐effects model in these analyses. SeeAnalysis 6.1.

Stillbirth/neonatal death

Binder 2006 reported zero stillbirths in either group and Zhang 2012 and Zhang 2015 reported zero perinatal deaths in either group. Three trials (Floreani 1996; Nicastri 1998; Roncaglia 2004) did not comment on this outcome.

Fetal distress/asphyxial events

For Binder 2006, we included those women who delivered by caesarean section for suspected fetal asphyxia, to avoid duplication and overestimation of rates of fetal distress. For Roncaglia 2004, we included women with babies who had an Apgar score of less than seven at five minutes in our analysis. Floreani 1996 reported that none of the babies had Apgar scores less than seven at five minutes. Overall, there were few to no differences in fetal distress between the two groups (RR 0.94, 95% CI 0.25 to 3.58; 3 trials, 117 women; Analysis 6.4).

Biochemical assessments

Women taking UDCA in Nicastri 1998 had a greater fall in serum bile acid concentrations compared with women taking SAMe (MD 12.90 µmol/L, 95% CI 4.36 to 21.44; 16 women; Analysis 6.5). Binder 2006 reported a lower serum bile acid concentration in the UDCA group compared with the SAMe group after treatment (MD −27.00 µmol/L, 95% CI −43.67 to −10.33; 51 women; Analysis 6.5).

Serum ALT concentrations were lower with SAMe (MD ‐2.20 U/L, 95% CI −3.55 to −0.85; 51 women; Analysis 6.6).

Roncaglia 2004 reported differences in laboratory variables as median and P values in relation to treatment. A reduction was reported in serum bile acids (P = 0.001), and serum ALT (P = 0.001) in the group receiving UDCA, while the changes from baseline were not significant in the group receiving SAMe. All liver function results in Floreani 1996 were presented graphically: after 15 days treatment, women in the UDCA group showed lower serum total bile acid concentrations compared with women in the SAMe group (P < 0.05) and there were no differences seen for serum ALT concentrations after 15 days treatment with either UDCA or SAMe (20 women in total). Zhang 2015 (79 women) found no difference in serum bile acids between the two groups (Analysis 6.5).

Zhang 2012 is published in abstract form only. It is reported in the abstract that no differences in total bile acid(TBA), alanine aminotransferase, aspartate aminotransferase, and total bilirubin were observed between the groups.

Caesarean section

Four trials reported caesarean sections, with few to no difference seen between those women randomised to UDCA and those randomised to SAMe (RR 0.86, 95% CI 0.65 to 1.13; 4 trials, 196 women; Analysis 6.7).

Postpartum haemorrhage

Binder 2006 and Roncaglia 2004 reported estimated blood loss (mL) at birth rather than the incidence of postpartum haemorrhage. Differences between the groups were not apparent.

Adverse effects of medication

Binder 2006, Nicastri 1998, Roncaglia 2004, Zhang 2012 and Zhang 2015 noted no adverse effects on women or babies with either therapy. Floreani 1996 noted that both drugs were "well tolerated".

Meconium‐stained liquor

Three trials compared the observation of meconium‐stained liquor at birth, with a 67% reduction in those women randomised to UDCA compared with those randomised to SAMe (RR 0.33, 95% CI 0.20 to 0.56; 3 trials, 176 women; Analysis 6.8).

Mean gestational age at birth

There was little to no difference in gestational age at birth between those women randomised to UDCA and those randomised to SAMe in two trials (MD −0.04 weeks, 95% CI −0.84 to 0.76; 2 trials, 66 women; Analysis 6.9).

Binder 2006 only reported ranges and no SD (no large differences were seen between UDCA and SAMe).

Spontaneous birth at less than 37 weeks

No important differences between UDCA and SAMe were seen in two trials for the incidence of spontaneous births at less than 37 weeks (RR 0.59, 95% 0.22 to 1.59; 2 trials, 62 women; Analysis 6.10).

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

Three other trials reported the total number of births at less than 37 weeks of gestation for the two groups, but did not specify how many of them were spontaneous preterm births. There was a 46% reduction in total preterm births in the UDCA group (RR 0.54, 95% CI 0.35 to 0.81; 3 trials, 150 women; Analysis 6.11).

Admission to neonatal unit

Three trials reported the number of babies that were admitted to the neonatal unit, with little to no difference between groups (RR 0.56, 95% CI 0.26 to 1.20; 3 trials, 176 babies; Analysis 6.12).

Pruritus

Improvement in pruritus after three weeks of treatment was reported graphically. No differences were seen overall, although in the subgroup with severe cholestasis (serum bile acid equal to or greater than 40 µmol/L), UDCA was more effective in reducing pruritus than dexamethasone (P = 0.01).

Stillbirth/neonatal death

There were no stillbirths or neonatal deaths in either group.

Fetal distress/asphyxial events

There was no difference in fetal asphyxial events between the UDCA and the dexamethasone groups (RR 0.34, 95% CI 0.08 to 1.45; 83 women; Analysis 7.1).

Subgroup analysis (serum bile acid concentrations ≥ 40 µmol/L versus serum bile acid concentrations < 40 µmol/L)

Glantz 2005 presented data for the subgroups of women with serum bile acids equal to or greater than 40 µmol/L versus those with serum bile acids less than 40 µmol/L for fetal distress/asphyxial events. In the severe subgroup (serum bile acids equal to or greater than 40 µmol/L), none of 12 in the UDCA group and one of 11 in the dexamethasone group were reported to have fetal asphyxial events (RR 0.31, 95% CI 0.01 to 6.85; 23 women; Analysis 7.1). There were few to no differences between subgroups (Analysis 7.1) (test for subgroup differences: Chi² = 0.01, df = 1 (P = 0.93), I² = 0%).

Biochemical assessments

UDCA was better than dexamethasone in reducing serum bile acid (P = 0.001) and serum ALT (P = 0.01) concentrations. In the subgroup of women with severe cholestasis (serum bile acids equal to or greater than 40 µmol/L), these analyses showed greater reductions for UDCA compared with dexamethasone. These results were reported as graphs and P values.

Caesarean section

Glantz 2005 did not report caesarean births but did indicate that rates of elective birth (both caesarean and vaginal) did not differ between the two groups (32% for UDCA and 33% for dexamethasone).

Adverse effects of medication

One woman on UDCA complained of diarrhoea, while one woman receiving dexamethasone suffered from nausea, dizziness and stomach pain (RR 0.77, 95% CI 0.05 to 11.83; 83 women; Analysis 7.2).

Meconium‐stained liquor

There was little to no difference between UDCA and dexamethasone in the observation of meconium‐stained liquor (RR 1.06, 95% CI 0.60 to 1.87; 83 women; Analysis 7.3). In the severe subgroup, six of 12 women in the UDCA group and five of 11 in the dexamethasone group were reported to have meconium‐stained liquor.

Spontaneous birth at less than 37 weeks

There was little to no difference in spontaneous preterm birth between women taking UDCA and women taking dexamethasone (RR 0.68, 95% CI 0.29 to 1.59; 83 women; Analysis 7.4). In the severe subgroup, four of 12 women in the UDCA group and four of 11 in the dexamethasone group had a spontaneous preterm birth.

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

There were few to no differences between groups (RR 0.87, 95% CI 0.44 to 1.71; 83 women; Analysis 7.5). In the severe subgroup, six of 12 women in the UDCA group and four of 11 in the dexamethasone group had a preterm birth ((RR 1.38, 95% CI 0.52 to 3.61; Analysis 7.5.2).

The following secondary outcomes were not reported: postpartum haemorrhage, mean gestational age at birth or admission to neonatal unit.

Pruritus

Self‐assessment of pruritus was performed by participants on a 0 ‐ 4 scale. Pruritus was relieved after three to four days in the UDCA group compared with seven to 10 days for the cholestyramine group. UDCA was found to result in a lower mean pruritus score compared with cholestyramine. After four days, the pruritus score was lower in the group receiving UDCA compared with the group receiving cholestyramine (P < 0.05 after four days; P < 0.001 after 14 days). Results were presented as mean and SD, and dichotomisation was not possible. A higher number of women in the UDCA group reported a reduction in pruritus score by more than 50% (RR 3.50, 95% CI 1.81 to 6.77; 84 women; Analysis 8.1).

Stillbirth/neonatal death

In this single trial there were no stillbirths or neonatal deaths in either group.

Fetal distress/asphyxial events

One out of 42 women in each group suffered morbidity associated with fetal distress (RR 1.00, 95% CI 0.06 to 15.47; 84 women; Analysis 8.2).

Liver function

The trial did not find any differences in serum bile acid concentrations between the two groups after treatment (MD −1.80 µmol/L, 95% CI −13.10 to 9.50; 84 women; Analysis 8.3). For serum ALT, women in the UDCA group had much lower concentrations after treatment than women in the cholestyramine group (MD −144.20 U/L, 95% CI −186.63 to −101.77; 84 women; Analysis 8.4).

Caesarean section

There were few to no differences between the two groups in rates of caesarean section (RR 2.33, 95% CI 0.65 to 8.42; 84 women; Analysis 8.5). Reasons for the seven caesarean sections in the UDCA group were: three multiple pregnancies, one placenta praevia, one cephalo‐pelvic disproportion, one fetal distress and one advanced maternal age. The three caesarean sections in the cholestyramine group were performed for: fetal distress, twin pregnancy and cephalo‐pelvic disproportion (one case each).

Adverse effects of medication

Cholestyramine use was found to have a greater number of adverse effects, with 12 out of 42 women suffering adverse effects (11 women suffering nausea, five women suffering vomiting and one woman suffering diarrhoea), compared with no adverse events reported for women taking UDCA (RR 0.04, 95% CI 0.00 to 0.65; Analysis 8.6).

Mean gestational age at birth

Women receiving UDCA had a shorter gestational length than women in the cholestyramine group (MD −1.30 weeks, 95% CI −1.99 to −0.61: 1 trial; 84 women; Analysis 8.7).

Spontaneous birth at less than 37 weeks

The study did not report spontaneous preterm births separately for the two interventions.

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

There was little to no difference for preterm births between the two groups (RR 0.60, 95% CI 0.15 to 2.35; 84 women; Analysis 8.8).

The following secondary outcomes were not reported: postpartum haemorrhage, meconium‐stained liquor or admission to neonatal unit.

Pruritus

Pruritus was assessed on a 0 ‐ 4 scale and results were analysed as a continuous outcome. Dichotomisation of data for re‐analysis was not possible, because results were presented as mean and SD. Significant change in pruritus score from the baseline was reported after treatment in the two groups (P < 0.01).

Stillbirth/neonatal death

This outcome was not reported.

Fetal distress/asphyxial events

This outcome was not reported.

Biochemical assessments

Compared with women given placebo, women given UDCA + SAMe had greater decreases in serum bile acids (MD 41.70 µmol/L, 95% CI 35.57 to 47.83; 16 women; Analysis 9.1).

Adverse effects of medication

No adverse effects were observed in the mothers or the babies in either group.

Spontaneous birth at less than 37 weeks

One case of spontaneous preterm birth was reported in the UDCA + SAMe group compared with none in the placebo group in Nicastri 1998.

The following secondary outcomes were not reported: caesarean section, postpartum haemorrhage, meconium‐stained liquor, mean gestational age at birth, total preterm birth or admission to neonatal unit.

Pruritus

Binder 2006 reported no difference for any improvement in pruritus on a 10‐point scale between the two groups (RR 1.42, 95% CI 0.99 to 2.03; 52 women). However, when restricted only to women with marked improvement, more women in the UDCA + SAMe group reported a marked improvement in pruritus compared with those in the SAMe‐alone group (RR 1.85, 95% CI 1.09 to 3.14; 52 women; Analysis 10.1).

Nicastri 1998 reported a reduction in pruritus after treatment with UDCA + SAMe compared with SAMe alone. They used a 0 ‐ 4 scale for assessing pruritus but analysed results as a continuous outcome. Dichotomisation of data and re‐analysis was not possible because results were reported as mean and SD. Zhang 2012 reported improvements in pruritus symptoms in both groups but did not report the actual scores, and stated that the differences were not statistically significant.

Stillbirth/neonatal death

There were no stillbirths or neonatal deaths in Binder 2006 or Zhang 2012 (Analysis 10.2). This outcome was not reported in Nicastri 1998.

Fetal distress/asphyxial events

In Binder 2006, one woman (4%) in the UDCA + SAMe group and three (12%) in the SAMe‐alone group had an operative birth for suspected fetal asphyxia (RR 0.31, 95% CI 0.03 to 2.78; 52 women; Analysis 10.3).

Biochemical assessments

Two trials reported contrasting results for improvement in bile acid concentrations. Binder 2006 found that serum bile acids after three to four weeks were lower in the UDCA + SAMe group compared with the SAMe‐alone group (MD −25.00 µmol/L, 95% CI −40.16 to −9.84; 52 women). In Nicastri 1998, reduction in serum bile acid concentrations were lower in the SAMe‐alone group compared with the UDCA + SAMe group after 20 days (MD 24.20 µmol/L, 95% CI 16.43 to 31.97; 16 women; Analysis 10.4).

Binder 2006 was the only trial to report serum ALT concentrations after treatment, which were lower after treatment with UDCA + SAMe compared with SAMe‐alone (MD −141 U/L, 95% CI −3.59 to −1.21; 52 women; Analysis 10.5).

Caesarean section

Binder 2006 found little to no difference between the UDCA + SAMe group compared with the SAMe‐alone group for caesareans (RR 0.37, 95% CI 0.08 to 1.74, 52 women; Analysis 10.6).

Postpartum haemorrhage

The three trials did not report the incidence of postpartum haemorrhage. Binder 2006 compared the estimated blood loss at delivery, which was 296 mL in the UDCA + SAMe group compared with 295 mL in the SAMe‐alone group (MD 1.00, 95% CI −76.75 to 78.75; 52 women; Analysis 10.7).

Adverse effects of medication

Neither Binder 2006 nor Nicastri 1998 reported on adverse events. Zhang 2012 reported that no adverse drug reactions were observed.

Meconium‐stained liquor

Binder 2006 found no differences between the UDCA + SAMe and the SAMe‐alone groups for observation of meconium‐stained liquor (RR 0.46, 95% CI 0.09 to 2.31; 52 women; Analysis 10.8).

Mean gestational age at birth

Binder 2006 indicated that this outcome did not differ significantly between the UDCA + SAMe and the SAMe‐alone groups, but did not report mean (and SD) gestational age at birth.

Spontaneous birth at less than 37 weeks

Nicastri 1998 reported three cases of spontaneous preterm labour in the SAMe‐alone group compared with one in the UDCA + SAMe group (RR 0.33, 95% CI 0.04 to 2.56; 16 women; Analysis 10.9).

Total preterm births at less than 37 weeks (spontaneous and iatrogenic) ‐ not a prespecified outcome

In Binder 2006, the rate of preterm birth at less than 36 weeks was 28% (7/25) in the SAMe‐alone group compared with 15% (4/27) in the UDCA + SAMe group at less than 36 weeks (RR 0.53, 95% CI 0.18 to 1.59; 52 women; Analysis 10.10).

Admission to neonatal unit

Binder 2006 reported few to no differences between UDCA + SAMe and the SAMe‐alone groups for admission to the neonatal unit (RR 0.46, 95% CI 0.09 to 2.31; 52 women; Analysis 10.11).

Pruritus

Binder 2006 reported the effect of treatment on pruritus as deterioration, not affected, mild improvement and marked improvement. Few to no differences were seen between the UDCA + SAMe and the UDCA‐alone groups for improvement in pruritus, either for any improvement (RR 1.05, 95% CI 0.83 to 1.35; 53 women) or a marked improvement (RR 1.07, 95% CI 0.76 to 1.50; 53 women; Analysis 11.1).

Nicastri 1998 used a 0 ‐ 4 scale for assessing pruritus and analysed results as a continuous outcome, which may not be the appropriate analysis. They found a reduction in pruritus score for the UDCA + SAMe group compared with the UDCA‐alone group. Luo 2008 reported mean itching score (0 ‐ 4 scale) as mean and SD before and after treatment, and we were therefore unable to include this in the meta‐analysis. The results reported were: UDCA + SAMe 'before treatment' 3.89 ± 1.52, 'after treatment' 1.12 ± 0.63; UDCA 'before treatment' 3.90 ± 1.43, 'after treatment' 2.78 ± 0.79. Zhang 2012 reported improvements in pruritus symptoms in both groups, but did not report the actual scores and stated that the differences were not statistically significant. Sun 2014 found a small difference in pruritus score associated with UDCA + SAMe treatment versus UDCA‐alone treatment (MD −0.41, 95% CI −0.66 to −0.16; 80 women; Analysis 11.2).

Stillbirth/neonatal death

There were no stillbirths or neonatal deaths in Binder 2006 or Zhang 2012 (Analysis 11.3). The other three trials (Luo 2008; Nicastri 1998; Sun 2014) did not report this outcome.

Fetal distress/asphyxial events

Binder 2006 and Sun 2014 reported on this, finding a reduction in events in the UDCA + SAMe group (RR 0.14, 95% CI 0.03 to 0.76; 2 trials, 133 women; Analysis 11.4).Luo 2008 prespecified an Apgar score of seven or lower as one of the perinatal outcomes, but these data were either not reported or not translated.

Biochemical assessments

Binder 2006 found no difference between the UDCA + SAMe and the UDCA‐alone groups for serum bile acid concentrations (MD 2.00 µmol/L, 95% CI −11.71 to 15.71; 53 women) after treatment, whereas Nicastri 1998 did find a reduction in serum bile acid concentrations in women taking UDCA (MD 11.30 µmol/L, 95% CI 2.16 to 20.44; 16 women; Sun 2014 found a reduction in serum bile acid concentrations with UDCA + SAMe (MD −33.40 µmol/L, 95% CI −34.87 to −31.93; 80 women) Analysis 11.5). The extremely high heterogeneity (I² of 96%) in analysis 11.5 may be largely due to the trial by Sun 2014 which showed a larger reduction in bile acids and a very narrow standard deviation. Since this trial was reported only in abstract and classed as low quality these results should be interpreted with caution.

Binder 2006 found lower concentrations of serum aminotransferase (ALT) after treatment with combined therapy (MD −2.40 U/L, 95% CI −3.59 to −1.21; 52 women; Analysis 11.6).

Luo 2008 reported a greater reduction with combined therapy (MD 1.28 IU/L, 95% CI 1.15 to 1.41; 64 women).

Two studies (Luo 2008; Sun 2014) found a reduction in serum alanine aminotransferase (ALT) with UDCA + SAMe compared with UDCA‐alone (MD 1.28, 95% CI 1.15 to 1.41; 144 women; Analysis 11.7)

Caesarean section

Three trials reported this outcome. The rates of caesarean section were lower in the UDCA + SAMe group compared with UDCA‐alone (RR 0.50, 95% CI 0.35 to 0.73; 196 women; Analysis 11.8).

Postpartum haemorrhage

Sun 2014 reported the incidence of postpartum haemorrhage. There was a reduction in postpartum haemorrhage in the UDCA + SAMe group compared with the UDCA‐alone group (RR 0.41, 95% CI 0.22 to 0.78; 80 women).

Adverse effects of medication

There were no adverse effects reported in the three studies (Binder 2006; Nicastri 1998; Zhang 2012). Luo 2008 and Sun 2014 did not report this outcome.

Meconium‐stained liquor

Binder 2006 and Sun 2014 reported a reduction in meconium‐stained liquor associated with UDCA + SAMe compared with UDCA‐alone (RR 0.55, 95 CI 0.34 to 0.88; 2 trials, 133 women; Analysis 11.10). Luo 2008 prespecified this outcome but data were not reported or translated.

Mean gestational age at birth

Three trials did not report mean gestation at birth with SDs (Luo 2008; Nicastri 1998; Zhang 2012). Binder 2006 and Sun 2014 indicated that this outcome did not differ significantly between the two groups.

Spontaneous birth at less than 37 weeks

In Nicastri 1998, one woman who received UDCA + SAMe and two women who received UDCA‐alone went into spontaneous labour at less than 37 weeks' gestation (RR 0.50, 95% CI 0.06 to 4.47; 16 women; Analysis 11.11).

Total preterm birth at less than 37 weeks (spontaneous and iatrogenic)

Luo 2008 found few to no differences for total preterm births at less than 37 weeks' gestation between the two groups (RR 0.69, 95% CI 0.29 to 1.62; 64 women; Analysis 11.12). In Binder 2006, the total preterm birth rate (< 36 weeks) was 15% in both groups.

Admission to neonatal unit

Binder 2006 reported that two babies in the UDCA + SAMe group were admitted to neonatal intensive care unit for moderate respiratory distress syndrome (RDS), and that three babies in the UDCA‐alone group (severe prematurity in one baby and for RDS in two babies) were admitted to the neonatal unit (RR 0.64, 95% CI 0.12 to 3.54; 53 babies; Analysis 11.13).

Pruritus

Reduction in pruritus on a 0 ‐ 4 scale from moderate/severe to mild pruritus (3.6 to 1.4) was reported in 58 of 72 (80.5%) women in the UDCA + salvia group compared with 43 of 56 (76.7%) in the UDCA‐alone group, showing no difference (RR 1.05, 95% CI 0.87 to 1.26; 128 women; Analysis 12.1). These effects were seen within four to six days in UDCA + salvia group and eight to 10 days in the UDCA‐alone group.

Stillbirth/neonatal death

The study did not report this outcome.

Fetal distress/asphyxial events

Thirteen women in the combination group and 11 women in the UDCA‐alone group had caesarean births due to fetal distress. There was little to no difference (RR 0.92, 95% CI 0.45 to 1.89; 128 women; Analysis 12.4)

Biochemical assessments

Fang 2009 found a reduction in the concentrations of serum ALT after treatment with UDCA + salvia compared with UDCA‐alone ((MD −14.90 µmol/L, 95% CI −24.42 to −5.38; 128 women; Analysis 12.2). Data on serum bile acids were not available.

Meconium‐stained liquor

No differences between UDCA + salvia and UDCA‐alone were seen for meconium‐stained liquor (RR 0.86, 95 CI 0.38 to 1.98; 128 women; Analysis 12.3).

The following secondary outcomes were not reported: caesarean section (although caesarean births performed for fetal distress were reported, caesarean section for other indications were not reported), postpartum haemorrhage, adverse effects of medication, mean gestational age at birth, spontaneous preterm birth, total preterm birth or admission to neonatal unit.

Pruritus

Huang 2004 demonstrated few to no differences between YCHD and SAMe in improving the degree of pruritus after treatment (RR 1.00, 95% CI 0.77 to 1.29; 60 women; Analysis 13.1) as measured by the symptom of itching appraisal score pre‐ and post‐treatment.

Stillbirth/neonatal death

There were no stillbirths or neonatal deaths in either group.

Fetal distress/asphyxial events

No difference in asphyxial events was found between the two groups (RR 0.86, 95% CI 0.29 to 2.50; 60 women; Analysis 13.3).

Biochemical assessments

There was little to no difference in the concentrations of glycocholic acid (a constituent of serum bile acids) (MD −1.50, 95% CI −6.12 to 3.12; 60 women; Analysis 13.4) or of ALT (MD 3.40, 95% CI −12.37 to 19.17; 60 women; Analysis 13.5) when comparing the two intervention groups.

Caesarean section

No differences were seen between the YCHD and SAMe groups for caesarean section (RR 0.93, 95% CI 0.56 to 1.55; 60 women; Analysis 13.6).

Meconium‐stained liquor

No differences were found between YCHD and SAMe for meconium‐stained liquor (RR 0.86, 95% CI 0.29 to 2.50; 60 women; Analysis 13.7).

Mean gestational age at birth

Mean gestational age at birth was 38.1 in the YCHD group and 37.4 weeks in the SAMe group. There was little difference between the two groups (MD 0.70 weeks, 95% CI −0.35 to 1.75; Analysis 13.8).

The following secondary outcomes were not reported: postpartum haemorrhage, adverse effects of medication, spontaneous preterm birth, total preterm birth or admission to neonatal unit.

Pruritus

All participants (29 women in each group) noticed improvement in pruritus after treatment (MD 1.00, 95% CI 0.94 to 1.07; 58 women). More women receiving Danxioling experienced marked improvement in pruritus in comparison to the Yiganling group (MD 1.67, 95% CI 1.14 to 2.44; 58 women). SeeAnalysis 14.1.

Stillbirth/neonatal death

There were no stillbirths or neonatal deaths in either group (Analysis 14.2).

Fetal distress/asphyxial events

Shi 2002 did not report this outcome.

Biochemical assessments

Shi 2002 found little to no difference in the concentrations of serum bile acids (MD −3.83, 95% CI −22.59 to 14.93; 58 women; Analysis 14.3), or of serum ALT (MD 5.20, 95% CI −36.90 to 47.30; 54 women; Analysis 14.4).

Caesarean section

Few to no differences were seen between the Danxioling and Yiganling groups for the incidence of caesarean section (RR 0.60, 95% CI 0.16 to 2.28; 58 women; Analysis 14.5).

Meconium‐stained liquor

A lower incidence of meconium‐stained liquor was observed in the group receiving Danxioling in comparison with the group receiving Yiganling (RR 0.40, 95% CI 0.18 to 0.89; 58 women; Analysis 14.6).

Spontaneous birth at less than 37 weeks

There was little to no difference in the rates of spontaneous preterm births between the two groups (RR 0.33, 95% CI 0.04 to 3.02; 58 women; Analysis 14.7).

The following secondary outcomes were not reported: postpartum haemorrhage, adverse effects of medication, mean gestational age at birth, total preterm birth or admission to neonatal unit.