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与单独使用微粒化黄体酮相比,地屈孕酮补充剂在人工冷冻-解冻胚胎移植周期中作为黄体支持更有益。

Supplementary dydrogesterone is beneficial as luteal phase support in artificial frozen-thawed embryo transfer cycles compared to micronized progesterone alone.

机构信息

Division of Reproductive Medicine and Gynecological Endocrinology, Lucerne Cantonal Hospital, Lucerne, Switzerland.

Fertisuisse Center for Reproductive Medicine, Olten, Switzerland.

出版信息

Front Endocrinol (Lausanne). 2023 Mar 13;14:1128564. doi: 10.3389/fendo.2023.1128564. eCollection 2023.

DOI:10.3389/fendo.2023.1128564
PMID:36992810
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10042263/
Abstract

INTRODUCTION

The number of frozen embryo transfers increased substantially in recent years. To increase the chances of implantation, endometrial receptivity and embryo competency must be synchronized. Maturation of the endometrium is facilitated by sequential administration of estrogens, followed by administration of progesterone prior to embryo transfer. The use of progesterone is crucial for pregnancy outcomes. This study compares the reproductive outcomes and tolerability of five different regimens of hormonal luteal phase support in artificial frozen embryo transfer cycles, with the objective of determining the best progesterone luteal phase support in this context.

DESIGN

This is a single-center retrospective cohort study of all women undergoing frozen embryo transfers between 2013 and 2019. After sufficient endometrial thickness was achieved by estradiol, luteal phase support was initiated. The following five different progesterone applications were compared: 1) oral dydrogesterone (30 mg/day), 2) vaginal micronized progesterone gel (90 mg/day), 3) dydrogesterone (20 mg/day) plus micronized progesterone gel (90 mg/day) (dydrogesterone + micronized progesterone gel), 4) micronized progesterone capsules (600 mg/day), and (5) subcutaneous injection of progesterone 25 mg/day (subcutan-P4). The vaginal micronized progesterone gel application served as the reference group. Ultrasound was performed after 12-15 days of oral estrogen (≥4 mg/day) administration. If the endometrial thickness was ≥7 mm, luteal phase support was started, up to six days before frozen embryo transfer, depending on the development of the frozen embryo. The primary outcome was the clinical pregnancy rate. Secondary outcomes included live birth rate, ongoing pregnancy, and miscarriage and biochemical pregnancy rate.

RESULTS

In total, 391 cycles were included in the study (median age of study participants 35 years; IQR 32-38 years, range 26-46 years). The proportions of blastocysts and single transferred embryos were lower in the micronized progesterone gel group. Differences among the five groups in other baseline characteristics were not significant. Multiple logistic regression analysis, adjusting for pre-defined covariates, showed that the clinical pregnancy rates were higher in the oral dydrogesterone only group (OR = 2.87, 95% CI 1.38-6.00, p=0.005) and in the dydrogesterone + micronized progesterone gel group (OR = 5.19, 95% CI 1.76-15.36, p = 0.003) compared to micronized progesterone gel alone. The live birth rate was higher in the oral dydrogesterone-only group (OR = 2.58; 95% CI 1.11-6.00; p=0.028) and showed no difference in the smaller dydrogesterone + micronized progesterone gel group (OR = 2.49; 95% CI 0.74-8.38; p=0.14) compared with the reference group.

CONCLUSION

The application of dydrogesterone in addition to micronized progesterone gel was associated with higher clinical pregnancy rate and live birth rate and then the use of micronized progesterone gel alone. DYD should be evaluated as a promising LPS option in FET Cycles.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e25d/10042263/ac4414eae5c3/fendo-14-1128564-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e25d/10042263/09d7315fbcd9/fendo-14-1128564-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e25d/10042263/ac4414eae5c3/fendo-14-1128564-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e25d/10042263/09d7315fbcd9/fendo-14-1128564-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e25d/10042263/ac4414eae5c3/fendo-14-1128564-g002.jpg
摘要

简介

近年来,冷冻胚胎移植的数量大幅增加。为了提高着床的机会,必须使子宫内膜容受性和胚胎能力同步。通过序贯给予雌激素,然后在胚胎移植前给予孕激素,促进子宫内膜的成熟。孕激素的使用对妊娠结局至关重要。本研究比较了在人工冷冻胚胎移植周期中使用五种不同孕激素黄体支持方案的生殖结局和耐受性,旨在确定这方面最佳的孕激素黄体支持方案。

设计

这是一项对 2013 年至 2019 年期间接受冷冻胚胎移植的所有女性进行的单中心回顾性队列研究。在雌激素使子宫内膜充分增厚后,开始黄体期支持。比较了以下五种不同的孕激素应用:1)口服地屈孕酮(30mg/天),2)阴道微粒化孕酮凝胶(90mg/天),3)地屈孕酮(20mg/天)加微粒化孕酮凝胶(90mg/天)(地屈孕酮+微粒化孕酮凝胶),4)微粒化孕酮胶囊(600mg/天),和 5)皮下注射 25mg/天的孕酮(皮下注射 P4)。阴道微粒化孕酮凝胶应用作为参考组。口服雌激素(≥4mg/天)后 12-15 天进行超声检查。如果子宫内膜厚度≥7mm,则开始黄体期支持,最多提前六天进行,具体取决于冷冻胚胎的发育情况。主要结局是临床妊娠率。次要结局包括活产率、持续妊娠率、流产和生化妊娠率。

结果

共有 391 个周期纳入研究(研究参与者的中位年龄为 35 岁;IQR 32-38 岁,范围 26-46 岁)。微粒化孕酮凝胶组的囊胚和单个移植胚胎比例较低。五组之间其他基线特征的差异无统计学意义。经过预定义协变量调整的多因素逻辑回归分析显示,与微粒化孕酮凝胶单独使用相比,口服地屈孕酮组(OR=2.87,95%CI 1.38-6.00,p=0.005)和地屈孕酮+微粒化孕酮凝胶组(OR=5.19,95%CI 1.76-15.36,p=0.003)的临床妊娠率更高。口服地屈孕酮组的活产率更高(OR=2.58;95%CI 1.11-6.00;p=0.028),而较小的地屈孕酮+微粒化孕酮凝胶组(OR=2.49;95%CI 0.74-8.38;p=0.14)与参考组无差异。

结论

与单独使用微粒化孕酮凝胶相比,地屈孕酮联合微粒化孕酮凝胶的应用与更高的临床妊娠率和活产率相关。DYD 应作为 FET 周期中一种有前途的 LPS 选择进行评估。

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