Minozzi Silvia, Amato Laura, Jahanfar Shayesteh, Bellisario Cristina, Ferri Marica, Davoli Marina
Department of Epidemiology, Lazio Regional Health Service, Rome, Italy.
Department of Public Health, School of Population and Public Health, University of British Columbia, Vancouver, Canada.
Cochrane Database Syst Rev. 2020 Nov 9;11(11):CD006318. doi: 10.1002/14651858.CD006318.pub4.
The prevalence of opiate use among pregnant women can range from 1% to 2% to as high as 21%. Just in the United States alone, among pregnant women with hospital delivery, a fourfold increase in opioid use is reported from 1999 to 2014 (Haight 2018). Heroin crosses the placenta, and pregnant, opiate-dependent women experience a six-fold increase in maternal obstetric complications such as low birth weight, toxaemia, third trimester bleeding, malpresentation, puerperal morbidity, fetal distress and meconium aspiration. Neonatal complications include narcotic withdrawal, postnatal growth deficiency, microcephaly, neuro-behavioural problems, increased neonatal mortality and a 74-fold increase in sudden infant death syndrome. This is an updated version of the original Cochrane Review first published in 2008 and last updated in 2013.
To assess the effectiveness of any maintenance treatment alone or in combination with a psychosocial intervention compared to no intervention, other pharmacological intervention or psychosocial interventions alone for child health status, neonatal mortality, retaining pregnant women in treatment, and reducing the use of substances.
We updated our searches of the following databases to February 2020: the Cochrane Drugs and Alcohol Group Specialised Register, CENTRAL, MEDLINE, Embase, PsycINFO, CINAHL, and Web of Science. We also searched two trials registers and checked the reference lists of included studies for further references to relevant randomised controlled trials (RCTs).
Randomised controlled trials which assessed the efficacy of any pharmacological maintenance treatment for opiate-dependent pregnant women.
We used the standard methodological procedures expected by Cochrane.
We found four trials with 271 pregnant women. Three compared methadone with buprenorphine and one methadone with oral slow-release morphine. Three out of four studies had adequate allocation concealment and were double-blind. The major flaw in the included studies was attrition bias: three out of four had a high dropout rate (30% to 40%), and this was unbalanced between groups. Methadone versus buprenorphine: There was probably no evidence of a difference in the dropout rate from treatment (risk ratio (RR) 0.66, 95% confidence interval (CI) 0.37 to 1.20, three studies, 223 participants, moderate-quality evidence). There may be no evidence of a difference in the use of primary substances between methadone and buprenorphine (RR 1.81, 95% CI 0.70 to 4.68, two studies, 151 participants, low-quality evidence). Birth weight may be higher in the buprenorphine group in the two trials that reported data MD;-530.00 g, 95%CI -662.78 to -397.22 (one study, 19 particpants) and MD: -215.00 g, 95%CI -238.93 to -191.07 (one study, 131 participants) although the results could not be pooled due to very high heterogeneity (very low-quality of evidence). The third study reported that there was no evidence of a difference. We found there may be no evidence of a difference in the APGAR score (MD: 0.00, 95% CI -0.03 to 0.03, two studies,163 participants, low-quality evidence). Many measures were used in the studies to assess neonatal abstinence syndrome. The number of newborns treated for neonatal abstinence syndrome, which is the most critical outcome, may not differ between groups (RR 1.19, 95% CI 0.87 to1.63, three studies, 166 participants, low-quality evidence). Only one study which compared methadone with buprenorphine reported side effects. We found there may be no evidence of a difference in the number of mothers with serious adverse events (AEs) (RR 1.69, 95% CI 0.75 to 3.83, 175 participants, low-quality evidence) and we found there may be no difference in the numbers of newborns with serious AEs (RR 4.77, 95% CI 0.59, 38.49,131 participants, low-quality evidence). Methadone versus slow-release morphine: There were no dropouts in either treatment group. Oral slow-release morphine may be superior to methadone for abstinence from heroin use during pregnancy (RR 2.40, 95% CI 1.00 to 5.77, one study, 48 participants, low-quality evidence). In the comparison between methadone and slow-release morphine, no side effects were reported for the mother. In contrast, one child in the methadone group had central apnoea, and one child in the morphine group had obstructive apnoea (low-quality evidence).
AUTHORS' CONCLUSIONS: Methadone and buprenorphine may be similar in efficacy and safety for the treatment of opioid-dependent pregnant women and their babies. There is not enough evidence to make conclusions for the comparison between methadone and slow-release morphine. Overall, the body of evidence is too small to make firm conclusions about the equivalence of the treatments compared. There is still a need for randomised controlled trials of adequate sample size comparing different maintenance treatments.
孕妇中阿片类药物的使用率在1%至2%之间,最高可达21%。仅在美国,在医院分娩的孕妇中,据报道1999年至2014年期间阿片类药物的使用增加了四倍(海特,2018年)。海洛因可穿过胎盘,依赖阿片类药物的孕妇出现孕产妇产科并发症的几率会增加六倍,如低出生体重、毒血症、孕晚期出血、胎位异常、产褥期发病率、胎儿窘迫和胎粪吸入。新生儿并发症包括麻醉药戒断、出生后生长发育不足、小头畸形、神经行为问题、新生儿死亡率增加以及婴儿猝死综合征增加74倍。这是2008年首次发表、2013年最后更新的原始Cochrane系统评价的更新版本。
评估与不干预、其他药物干预或单独的社会心理干预相比,任何维持治疗单独或与社会心理干预联合使用对儿童健康状况、新生儿死亡率、使孕妇持续接受治疗以及减少物质使用的有效性。
我们将以下数据库的检索更新至2020年2月:Cochrane药物与酒精小组专业注册库、Cochrane系统评价数据库、医学期刊数据库、荷兰医学文摘数据库、心理学文摘数据库、护理学与健康领域数据库以及科学引文索引数据库。我们还检索了两个试验注册库,并检查了纳入研究的参考文献列表,以进一步查找相关随机对照试验(RCT)的参考文献。
评估任何药物维持治疗对阿片类药物依赖孕妇疗效的随机对照试验。
我们采用了Cochrane期望的标准方法程序。
我们发现了四项涉及271名孕妇的试验。三项试验比较了美沙酮与丁丙诺啡,一项试验比较了美沙酮与口服缓释吗啡。四项研究中有三项有充分的随机分配隐藏且为双盲试验。纳入研究的主要缺陷是失访偏倚:四项研究中有三项失访率较高(30%至40%),且组间不均衡。美沙酮与丁丙诺啡:治疗失访率可能没有差异(风险比(RR)0.66,95%置信区间(CI)0.37至1.20,三项研究,223名参与者,中等质量证据)。美沙酮与丁丙诺啡在主要物质使用方面可能没有差异(RR 1.81,95%CI 0.70至4.68,两项研究,151名参与者,低质量证据)。在报告了数据的两项试验中,丁丙诺啡组的出生体重可能更高,平均差(MD)为 -530.00 g,95%CI为 -662.78至 -397.22(一项研究,19名参与者),以及MD为 -215.00 g,95%CI为 -238.93至 -191.07(一项研究,131名参与者),尽管由于异质性非常高(证据质量极低),结果无法合并。第三项研究报告没有差异证据。我们发现阿氏评分可能没有差异(MD:0.00,95%CI -0.03至0.03,两项研究,163名参与者,低质量证据)。研究中使用了多种措施来评估新生儿戒断综合征。作为最关键结局的接受新生儿戒断综合征治疗的新生儿数量在组间可能没有差异(RR 1.19,95%CI 0.87至1.63,三项研究,166名参与者,低质量证据)。只有一项比较美沙酮与丁丙诺啡的研究报告了副作用。我们发现有严重不良事件(AE)的母亲数量可能没有差异(RR 1.69,95%CI 0.75至3.83,175名参与者,低质量证据),并且我们发现有严重AE的新生儿数量可能没有差异(RR 4.77,95%CI 0.59至38.49,131名参与者,低质量证据)。美沙酮与缓释吗啡:两个治疗组均无失访。口服缓释吗啡在孕期戒除海洛因使用方面可能优于美沙酮(RR 2.40,95%CI 1.00至5.77,一项研究,48名参与者,低质量证据)。在美沙酮与缓释吗啡的比较中,未报告母亲的副作用。相比之下,美沙酮组有一名儿童出现中枢性呼吸暂停,吗啡组有一名儿童出现阻塞性呼吸暂停(低质量证据)。
美沙酮和丁丙诺啡在治疗阿片类药物依赖孕妇及其婴儿方面的疗效和安全性可能相似。没有足够的证据对美沙酮和缓释吗啡进行比较并得出结论。总体而言,证据量太小,无法就所比较治疗方法的等效性得出确凿结论。仍需要进行足够样本量的随机对照试验来比较不同的维持治疗方法。
