在辅助生殖技术周期(体外受精、卵胞浆内单精子注射和冻融胚胎移植)中,于胚胎移植前将精浆应用于女性生殖道。
Application of seminal plasma to female genital tract prior to embryo transfer in assisted reproductive technology cycles (IVF, ICSI and frozen embryo transfer).
作者信息
Ata Baris, Abou-Setta Ahmed M, Seyhan Ayse, Buckett William
机构信息
Obstetrics and Gynecology, Koc University, Rumelifeneri yolu, Sarıyer, Istanbul, Turkey, 34450.
出版信息
Cochrane Database Syst Rev. 2018 Feb 28;2(2):CD011809. doi: 10.1002/14651858.CD011809.pub2.
BACKGROUND
The female genital tract is not exposed to seminal plasma during standard assisted reproductive technology (ART) cycles. However, it is thought that the inflammatory reaction triggered by seminal plasma may be beneficial by inducing maternal tolerance to paternal antigens expressed by the products of conception, and may increase the chance of successful implantation and live birth.
OBJECTIVES
To assess the effectiveness and safety of application of seminal plasma to the female genital tract prior to embryo transfer in ART cycles.
SEARCH METHODS
We searched the following databases from inception to October 2017: Cochrane Gynaecology and Fertility Group Specialised Register of Controlled Trials, Cochrane Central Register of Studies Online (CRSO), MEDLINE, Embase, CINAHL and PsycINFO. We also searched trial registers for ongoing trials, including International Clinical Trials Registry Platform (ICTRP) Search Portal and ClinicalTrials.gov. Other sources searched were; Web of Knowledge, OpenGrey, LILACS, PubMed, Google Scholar and the reference lists of relevant articles.
SELECTION CRITERIA
We included randomised controlled trials (RCTs) conducted among women undergoing ART, comparing any procedure that would expose the female genital tract to seminal plasma during the period starting five days before embryo transfer and ending two days after it versus no seminal plasma application.
DATA COLLECTION AND ANALYSIS
Two review authors independently selected trials, assessed risk of bias, and extracted data. We pooled data to calculate relative risks (RRs) and 95% confidence intervals (CIs). We assessed statistical heterogeneity using the I statistic. We assessed the overall quality of the evidence for the main outcomes using GRADE methods. Our primary outcomes were live birth rate and miscarriage rate. Secondary outcomes were live birth/ongoing pregnancy rate, clinical pregnancy rate, multiple pregnancy rate, ectopic pregnancy rate and the incidence of other adverse events.
MAIN RESULTS
We included 11 RCTs (3215 women). The quality of the evidence ranged from very low to low. The main limitations were risk of bias (associated with poor reporting of allocation concealment and other methods) and imprecision for the primary outcome of live birth rate.Live birth rates: There was insufficient evidence to determine whether there was a difference between the groups with respect to live birth rates (RR 1.10, 95% CI 0.86 to 1.43; participants = 948; studies = 3; I = 0%). Low quality evidence suggests that if the live birth rate following standard ART is 19% it will be between 16% and 27% with seminal plasma application.Miscarriage rate: There was insufficient evidence to determine whether there was a difference between the groups (RR 1.01, 95% CI 0.57 to 1.79; participants = 1209; studies = 4; I = 0%). Low quality evidence suggests that if the miscarriage rate following standard ART is 3.7%, the miscarriage rate following seminal plasma application will be between 2.1% and 6.6%.Live birth or ongoing pregnancy rates: Seminal plasma application makes little or no difference in live birth or ongoing pregnancy rates (RR 1.19, 95% CI 0.95 to 1.49; participants = 1178; studies = 4; I = 4%, low quality evidence). The evidence suggests that if the live birth or ongoing pregnancy rate following standard ART is 19.5% it will be between 18.5% and 29% with seminal plasma application.Clinical pregnancy rates: Seminal plasma application may increase clinical pregnancy rates (RR 1.15, 95% CI 1.01 to 1.31; participants = 2768; studies = 10; I = 0%). Very low quality evidence suggests that if the clinical pregnancy rate following standard ART is 22.0% it will be between 22.2% and 28.8% with seminal plasma application. This finding should be regarded with caution, as a post-hoc sensitivity analysis restricted to studies at overall low risk of bias did not find a significant difference between the groups (RR 1.06, 95% CI 0.81 to 1.39; participants = 547; studies = 3; I = 0%).Multiple pregnancy rate: Seminal plasma application may make little or no difference to multiple pregnancy rates (RR 1.11, 95% CI 0.76 to 1.64; participants = 1642; studies = 5; I = 9%). Low quality evidence suggests that if the multiple pregnancy rate following standard ART is 7%, the multiple pregnancy rate following seminal plasma application will be between 5% and 11.4%.Ectopic pregnancy: There was insufficient evidence to determine whether seminal plasma application influences the risk of ectopic pregnancy (RR 1.59, 95% CI 0.20 to 12.78, participants =1521; studies = 5; I = 0%) .Infectious complications or other adverse events: No data were available on these outcomes AUTHORS' CONCLUSIONS: In women undergoing ART, there was insufficient evidence to determine whether there was a difference between the seminal plasma and the standard ART group in rates of live birth (low-quality evidence) or miscarriage (low quality evidence). There was low quality evidence suggesting little or no difference between the groups in rates of live birth or ongoing pregnancy (composite outcome). We found low quality evidence that seminal plasma application may be associated with more clinical pregnancies than standard ART. There was low quality evidence suggesting little or no difference between the groups in rates of multiple pregnancy. There was insufficient evidence to reach any conclusions about the risk of ectopic pregnancy, and no data were available on infectious complications or other adverse events.We conclude that seminal plasma application is worth further investigation, focusing on live birth and miscarriage rates.
背景
在标准辅助生殖技术(ART)周期中,女性生殖道不会接触到精浆。然而,人们认为精浆引发的炎症反应可能有益,因为它可诱导母体对由妊娠产物表达的父源抗原产生耐受性,并可能增加成功着床和活产的几率。
目的
评估在ART周期中,胚胎移植前将精浆应用于女性生殖道的有效性和安全性。
检索方法
我们检索了以下数据库,检索时间从建库至2017年10月:Cochrane妇产科和生育组对照试验专门注册库、Cochrane在线研究中央注册库(CRSO)、医学索引数据库(MEDLINE)、荷兰医学文摘数据库(Embase)、护理学与健康领域数据库(CINAHL)和心理学文摘数据库(PsycINFO)。我们还检索了试验注册库以查找正在进行的试验,包括国际临床试验注册平台(ICTRP)检索入口和美国国立医学图书馆临床试验数据库(ClinicalTrials.gov)。其他检索来源包括:科学引文索引扩展版(Web of Knowledge)、OpenGrey、拉丁美洲及加勒比地区卫生科学数据库(LILACS)、美国国立医学图书馆医学期刊数据库(PubMed)、谷歌学术以及相关文章的参考文献列表。
选择标准
我们纳入了在接受ART的女性中进行的随机对照试验(RCT),比较在胚胎移植前5天开始至移植后2天期间,将使女性生殖道接触精浆的任何程序与不应用精浆的情况。
数据收集与分析
两位综述作者独立选择试验、评估偏倚风险并提取数据。我们汇总数据以计算相对风险(RR)和95%置信区间(CI)。我们使用I²统计量评估统计异质性。我们使用GRADE方法评估主要结局证据的总体质量。我们的主要结局是活产率和流产率。次要结局是活产/持续妊娠率、临床妊娠率、多胎妊娠率、异位妊娠率以及其他不良事件的发生率。
主要结果
我们纳入了11项RCT(3215名女性)。证据质量从极低到低不等。主要局限性在于偏倚风险(与分配隐藏及其他方法的报告不佳相关)以及活产率这一主要结局的不精确性。
活产率
没有足够证据确定两组在活产率方面是否存在差异(RR = 1.10,95%CI为0.86至1.43;参与者 = 948;研究 = 3;I² = 0%)。低质量证据表明,如果标准ART后的活产率为19%,应用精浆后的活产率将在16%至27%之间。
流产率
没有足够证据确定两组之间是否存在差异(RR = 1.01,95%CI为0.57至1.79;参与者 = 1209;研究 = 4;I² = 0%)。低质量证据表明,如果标准ART后的流产率为3.7%,应用精浆后的流产率将在2.1%至6.6%之间。
活产或持续妊娠率
应用精浆对活产或持续妊娠率几乎没有或没有差异(RR = 1.19,95%CI为0.95至1.49;参与者 = 1178;研究 = 4;I² = 4%,低质量证据)。证据表明,如果标准ART后的活产或持续妊娠率为19.5%,应用精浆后的活产或持续妊娠率将在18.5%至29%之间。
临床妊娠率
应用精浆可能会提高临床妊娠率(RR = 1.15,95%CI为1.01至1.31;参与者 = 2768;研究 = 10;I² = 0%)。极低质量证据表明,如果标准ART后的临床妊娠率为22.0%,应用精浆后的临床妊娠率将在22.2%至28.8%之间。这一发现应谨慎看待,因为一项仅限于总体偏倚风险较低的研究的事后敏感性分析未发现两组之间存在显著差异(RR = 1.06,95%CI为0.81至1.39;参与者 = 547;研究 = 3;I² = 0%)。
多胎妊娠率
应用精浆对多胎妊娠率可能几乎没有或没有差异(RR = 1.11,95%CI为0.76至1.64;参与者 = 1642;研究 = 5;I² = 9%)。低质量证据表明,如果标准ART后的多胎妊娠率为7%,应用精浆后的多胎妊娠率将在5%至11.4%之间。
异位妊娠
没有足够证据确定应用精浆是否会影响异位妊娠风险(RR = 1.59,95%CI为0.20至12.78,参与者 = 1521;研究 = 5;I² = 0%)。
感染性并发症或其他不良事件
关于这些结局没有可用数据。
作者结论
在接受ART的女性中,没有足够证据确定精浆组与标准ART组在活产率(低质量证据)或流产率(低质量证据)方面是否存在差异。有低质量证据表明两组在活产或持续妊娠率(复合结局)方面几乎没有或没有差异。我们发现低质量证据表明应用精浆可能比标准ART导致更多临床妊娠。有低质量证据表明两组在多胎妊娠率方面几乎没有或没有差异。没有足够证据就异位妊娠风险得出任何结论,并且没有关于感染性并发症或其他不良事件的可用数据。我们得出结论,精浆应用值得进一步研究,重点关注活产率和流产率。
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