Hamulyák Eva N, Scheres Luuk Jj, Marijnen Mauritia C, Goddijn Mariëtte, Middeldorp Saskia
Department of Vascular Medicine, Amsterdam UMC, University of Amsterdam, Amsterdam, Netherlands.
Center for Reproductive Medicine, Department of Obstetrics and Gynaecology, Amsterdam UMC, University of Amsterdam, Amsterdam, Netherlands.
Cochrane Database Syst Rev. 2020 May 2;5(5):CD012852. doi: 10.1002/14651858.CD012852.pub2.
Aspirin and heparin are widely used as preventive strategy to reduce the high risk of recurrent pregnancy loss in women with antiphospholipid antibodies (aPL). This review supersedes a previous, out-of-date review that evaluated all potential therapies for preventing recurrent pregnancy loss in women with aPL. The current review focusses on a narrower scope because current clinical practice is restricted to using aspirin or heparins, or both for women with aPL in an attempt to reduce pregnancy complications.
To assess the effects of aspirin or heparin, or both for improving pregnancy outcomes in women with persistent (on two separate occasions) aPL, either lupus anticoagulant (LAC), anticardiolipin (aCL) or aβ-glycoprotein-I antibodies (aβGPI) or a combination, and recurrent pregnancy loss (two or more, which do not have to be consecutive).
We searched Cochrane Pregnancy and Childbirth's Trials Register, ClinicalTrials.gov, the WHO International Clinical Trials Registry Platform (ICTRP) (3 June 2019), and reference lists of retrieved studies. Where necessary, we attempted to contact trial authors.
Randomised, cluster-randomised and quasi-randomised controlled trials that assess the effects of aspirin, heparin (either low-molecular-weight heparin (LMWH) or unfractionated heparin (UFH]), or a combination of aspirin and heparin compared with no treatment, placebo or another, on pregnancy outcomes in women with persistent aPL and recurrent pregnancy loss were eligible. All treatment regimens were considered.
Two review authors independently assessed trials for inclusion criteria and risk of bias. Two review authors independently extracted data and checked them for accuracy and the certainty of the evidence was assessed using the GRADE approach.
Eleven studies (1672 women) met the inclusion criteria; nine randomised controlled trials and two quasi-RCTs. The studies were conducted in the USA, Canada, UK, China, New Zealand, Iraq and Egypt. One included trial involved 1015 women, all other included trials had considerably lower numbers of participants (i.e. 141 women or fewer). Some studies had high risk of selection and attrition bias, and many did not include sufficient information to judge the risk of reporting bias. Overall, the certainty of evidence is low to very low due to the small numbers of women in the studies and to the risk of bias. The dose and type of heparin and aspirin varied among studies. One study compared aspirin alone with placebo; no studies compared heparin alone with placebo and there were no trials that had a no treatment comparator arm during pregnancy; five studies explored the efficacy of heparin (either UFH or LMWH) combined with aspirin compared with aspirin alone; one trial compared LMWH with aspirin; two trials compared the combination of LMWH plus aspirin with the combination of UFH plus aspirin; two studies evaluated the combination of different doses of heparin combined with aspirin. All trials used aspirin at a low dose. Aspirin versus placebo We are very uncertain if aspirin has any effect on live birth compared to placebo (risk ratio (RR) 0.94, 95% confidence interval (CI) 0.71 to 1.25, 1 trial, 40 women, very low-certainty evidence). We are very uncertain if aspirin has any effect on the risk of pre-eclampsia, pregnancy loss, preterm delivery of a live infant, intrauterine growth restriction or adverse events in the child, compared to placebo. We are very uncertain if aspirin has any effect on adverse events (bleeding) in the mother compared with placebo (RR 1.29, 95% CI 0.60 to 2.77, 1 study, 40 women). The certainty of evidence for these outcomes is very low because of imprecision, due to the low numbers of women involved and the wide 95% CIs, and also because of risk of bias. Venous thromboembolism and arterial thromboembolism were not reported in the included studies. Heparin plus aspirin versus aspirin alone Heparin plus aspirin may increase the number of live births (RR 1.27, 95% CI 1.09 to 1.49, 5 studies, 1295 women, low-certainty evidence). We are uncertain if heparin plus aspirin has any effect on the risk of pre-eclampsia, preterm delivery of a live infant, or intrauterine growth restriction, compared with aspirin alone because of risk of bias and imprecision due to the low numbers of women involved and the wide 95% CIs. We are very uncertain if heparin plus aspirin has any effect on adverse events (bleeding) in the mother compared with aspirin alone (RR 1.65, 95% CI 0.19 to 14.03, 1 study, 31 women). No women in either the heparin plus aspirin group or the aspirin alone group had heparin-induced thrombocytopenia, allergic reactions, or venous or arterial thromboembolism. Similarly, no infants had congenital malformations. Heparin plus aspirin may reduce the risk of pregnancy loss (RR 0.48, 95% CI 0.32 to 0.71, 5 studies, 1295 women, low-certainty evidence). When comparing LMWH plus aspirin versus aspirin alone the pooled RR for live birth was 1.20 (95% CI 1.04 to 1.38, 3 trials, 1155 women). In the comparison of UFH plus aspirin versus aspirin alone, the RR for live birth was 1.74 (95% CI 1.28 to 2.35, 2 trials, 140 women).
AUTHORS' CONCLUSIONS: The combination of heparin (UFH or LMWH) plus aspirin during the course of pregnancy may increase live birth rate in women with persistent aPL when compared with aspirin treatment alone. The observed beneficial effect of heparin was driven by one large study in which LMWH plus aspirin was compared with aspirin alone. Adverse events were frequently not, or not uniformly, reported in the included studies. More research is needed in this area in order to further evaluate potential risks and benefits of this treatment strategy, especially among women with aPL and recurrent pregnancy loss, to gain consensus on the ideal prevention for recurrent pregnancy loss, based on a risk profile.
阿司匹林和肝素被广泛用作预防策略,以降低抗磷脂抗体(aPL)女性复发性流产的高风险。本综述取代了之前一篇过时的综述,该综述评估了预防aPL女性复发性流产的所有潜在疗法。当前综述的范围更窄,因为目前的临床实践仅限于对aPL女性使用阿司匹林或肝素,或两者并用,以试图减少妊娠并发症。
评估阿司匹林或肝素,或两者并用,对患有持续性(在两个不同时间)aPL的女性(狼疮抗凝物[LAC]、抗心磷脂[aCL]或抗β2糖蛋白-I抗体[aβGPI]或其组合)及复发性流产(两次或更多次,不一定连续)女性改善妊娠结局的效果。
我们检索了Cochrane妊娠与分娩试验注册库、ClinicalTrials.gov、世界卫生组织国际临床试验注册平台(ICTRP)(2019年6月3日)以及检索到的研究的参考文献列表。必要时,我们试图联系试验作者。
评估阿司匹林、肝素(低分子量肝素[LMWH]或普通肝素[UFH])或阿司匹林与肝素联合使用与不治疗、安慰剂或其他治疗相比,对患有持续性aPL和复发性流产女性妊娠结局影响的随机、整群随机和半随机对照试验符合要求。所有治疗方案均被考虑。
两位综述作者独立评估试验的纳入标准和偏倚风险。两位综述作者独立提取数据并检查其准确性,使用GRADE方法评估证据的确定性。
11项研究(1672名女性)符合纳入标准;9项随机对照试验和2项半随机对照试验。这些研究在美国、加拿大、英国、中国、新西兰、伊拉克和埃及进行。一项纳入试验涉及1015名女性,所有其他纳入试验的参与者数量要少得多(即141名女性或更少)。一些研究存在较高的选择和失访偏倚风险,许多研究没有包括足够信息来判断报告偏倚风险。总体而言,由于研究中的女性数量较少以及偏倚风险,证据的确定性为低至极低。肝素和阿司匹林的剂量和类型在各研究中有所不同。一项研究将单独使用阿司匹林与安慰剂进行比较;没有研究将单独使用肝素与安慰剂进行比较,且没有试验在孕期设置无治疗对照臂;五项研究探讨了肝素(UFH或LMWH)与阿司匹林联合使用与单独使用阿司匹林相比的疗效;一项试验将LMWH与阿司匹林进行比较;两项试验将LMWH加阿司匹林的组合与UFH加阿司匹林的组合进行比较;两项研究评估了不同剂量肝素与阿司匹林联合使用的组合。所有试验均使用低剂量阿司匹林。阿司匹林与安慰剂相比 与安慰剂相比,我们非常不确定阿司匹林对活产是否有任何影响(风险比[RR]0.94,95%置信区间[CI]0.71至1.25,1项试验,40名女性,极低确定性证据)。与安慰剂相比,我们非常不确定阿司匹林对先兆子痫、流产、活产婴儿早产、胎儿生长受限或儿童不良事件的风险是否有任何影响。与安慰剂相比,我们非常不确定阿司匹林对母亲不良事件(出血)是否有任何影响(RR 1.29,95%CI 0.60至2.77,1项研究,40名女性)。由于涉及的女性数量较少、95%CI较宽导致的不精确性以及偏倚风险,这些结局的证据确定性非常低。纳入研究中未报告静脉血栓栓塞和动脉血栓栓塞。肝素加阿司匹林与单独使用阿司匹林相比 肝素加阿司匹林可能会增加活产数量(RR 1.27,95%CI 1.09至1.49,5项研究,1295名女性,低确定性证据)。与单独使用阿司匹林相比,我们不确定肝素加阿司匹林对先兆子痫、活产婴儿早产或胎儿生长受限的风险是否有任何影响,因为涉及的女性数量较少以及95%CI较宽导致偏倚风险和不精确性。与单独使用阿司匹林相比,我们非常不确定肝素加阿司匹林对母亲不良事件(出血)是否有任何影响(RR 1.65,95%CI 0.19至14.03,1项研究,31名女性)。肝素加阿司匹林组和单独使用阿司匹林组均没有女性发生肝素诱导的血小板减少症、过敏反应或静脉或动脉血栓栓塞。同样,没有婴儿出现先天性畸形。肝素加阿司匹林可能会降低流产风险(RR 0.48,95%CI 0.32至0.71,5项研究,1295名女性,低确定性证据)。比较LMWH加阿司匹林与单独使用阿司匹林时,活产合并RR为1.20(95%CI 1.04至1.38,3项试验,1155名女性)。比较UFH加阿司匹林与单独使用阿司匹林时,活产RR为1.74(95%CI 1.28至2.35,2项试验,140名女性)。
与单独使用阿司匹林治疗相比,孕期使用肝素(UFH或LMWH)加阿司匹林的组合可能会提高患有持续性aPL女性的活产率。观察到的肝素有益效果是由一项大型研究推动的,该研究将LMWH加阿司匹林与单独使用阿司匹林进行了比较。纳入研究中不良事件的报告往往不充分或不一致。该领域需要更多研究,以进一步评估这种治疗策略的潜在风险和益处,特别是在患有aPL和复发性流产的女性中,以便根据风险概况就复发性流产的理想预防达成共识。
