Blastocyst telomere length predicts successful implantation after frozen-thawed embryo transfer.

IF 8.3 Q1 OBSTETRICS & GYNECOLOGY
Human reproduction open Pub Date : 2024-02-24 eCollection Date: 2024-01-01 DOI:10.1093/hropen/hoae012
Chun-Wei Chien, Yen-An Tang, Shuen-Lin Jeng, Hsien-An Pan, H Sunny Sun
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引用次数: 0

Abstract

Study question: Do embryos with longer telomere length (TL) at the blastocyst stage have a higher capacity to survive after frozen-thawed embryo transfer (FET)?

Summary answer: Digitally estimated TL using low-pass whole genome sequencing (WGS) data from the preimplantation genetic testing for aneuploidy (PGT-A) process demonstrates that blastocyst TL is the most essential factor associated with likelihood of implantation.

What is known already: The lifetime TL is established in the early cleavage cycles following fertilization through a recombination-based lengthening mechanism and starts erosion beyond the blastocyst stage. In addition, a telomerase-mediated slow erosion of TL in human fetuses has been observed from a gestational age of 6-11 weeks. Finally, an abnormal shortening of telomeres is likely involved in embryo loss during early development.

Study design size duration: Blastocyst samples were obtained from patients who underwent PGT-A and FET in an IVF center from March 2015 to May 2018. Digitally estimated mitochondrial copy number (mtCN) and TL were used to study associations with the implantation potential of each embryo.

Participants/materials setting and methods: In total, 965 blastocysts from 232 cycles (164 patients) were available to investigate the biological and clinical relevance of TL. A WGS-based workflow was applied to determine the ploidy of each embryo. Data from low-pass WGS-PGT-A were used to estimate the mtCN and TL for each embryo. Single-variant and multi-variant logistic regression, decision tree, and random forest models were applied to study various factors in association with the implantation potential of each embryo.

Main results and the role of chance: Of the 965 blastocysts originally available, only 216 underwent FET. While mtCN from the transferred embryos is significantly associated with the ploidy call of each embryo, mtCN has no role in impacting IVF outcomes after an embryo transfer in these women. The results indicate that mtCN is a marker of embryo aneuploidy. On the other hand, digitally estimated TL is the most prominent univariant factor and showed a significant positive association with pregnancy outcomes (P < 0.01, odds ratio 79.1). We combined several maternal and embryo parameters to study the joint effects on successful implantation. The machine learning models, namely decision tree and random forest, were trained and yielded classification accuracy of 0.82 and 0.91, respectively. Taken together, these results support the vital role of TL in governing implantation potential, perhaps through the ability to control embryo survival after transfer.

Limitations reasons for caution: The small sample size limits our study as only 216 blastocysts were transferred. The number was further reduced to 153 blastocysts, where pregnancy outcomes could be accurately traced. The other limitation of this study is that all data were collected from a single IVF center. The uniform and controlled operation of IVF cycles in a single center may cause selection bias.

Wider implications of the findings: We present novel findings to show that digitally estimated TL at the blastocyst stage is a predictor of pregnancy capacity after a FET cycle. As elective single-embryo transfer has become the mainstream direction in reproductive medicine, prioritizing embryos based on their implantation potential is crucial for clinical infertility treatment in order to reduce twin pregnancy rate and the time to pregnancy in an IVF center. The AI-powered, random forest prediction model established in this study thus provides a way to improve clinical practice and optimize the chances for people with fertility problems to achieve parenthood.

Study funding/competing interests: This study was supported by a grant from the National Science and Technology Council, Taiwan (MOST 108-2321-B-006-013 -). There were no competing interests.

Trial registration number: N/A.

囊胚端粒长度可预测冷冻解冻胚胎移植后的成功植入。
研究问题:囊胚期端粒长度(TL)较长的胚胎在冷冻-解冻胚胎移植(FET)后的存活能力是否较高?利用植入前非整倍体基因检测(PGT-A)过程中的低通量全基因组测序(WGS)数据对端粒长度进行数字估算,结果表明囊胚端粒长度是与植入可能性相关的最重要因素:已知:受精后的早期分裂周期中,通过基于重组的延长机制建立了终生端粒长度,并在囊胚期后开始侵蚀。此外,在人类胎儿中,从孕龄 6-11 周开始就观察到端粒酶介导的 TL 缓慢侵蚀。最后,端粒的异常缩短很可能与胚胎早期发育过程中的损失有关:囊胚样本取自2015年3月至2018年5月在一家试管婴儿中心接受PGT-A和FET的患者。通过数字估算线粒体拷贝数(mtCN)和TL来研究与每个胚胎植入潜能的相关性.参与者/材料设置和方法:共有来自 232 个周期(164 位患者)的 965 个囊胚可用来研究 TL 的生物学和临床相关性。采用基于 WGS 的工作流程确定每个胚胎的倍性。低通 WGS-PGT-A 的数据用于估算每个胚胎的 mtCN 和 TL。应用单变量和多变量逻辑回归、决策树和随机森林模型来研究与每个胚胎植入潜力相关的各种因素:在最初可用的 965 个囊胚中,只有 216 个进行了 FET。虽然移植胚胎的 mtCN 与每个胚胎的染色体倍性鉴定有显著关联,但 mtCN 对这些妇女胚胎移植后的试管婴儿结果没有影响。结果表明,mtCN 是胚胎非整倍体的标志物。另一方面,数字估算的 TL 是最重要的单变量因素,与妊娠结局呈显著正相关(P):样本量小限制了我们的研究,因为只移植了 216 个囊胚。在可以准确追踪妊娠结局的情况下,囊胚数量进一步减少到 153 个。本研究的另一个局限性是,所有数据都是从一个试管婴儿中心收集的。单一中心对试管婴儿周期的统一控制操作可能会造成选择偏差:我们提出的新发现表明,囊胚期的数字估计 TL 是 FET 周期后妊娠能力的预测指标。由于选择性单胚胎移植已成为生殖医学的主流方向,因此根据胚胎的植入潜能确定胚胎的优先顺序对于临床不孕症治疗至关重要,这样才能降低双胎妊娠率,缩短试管婴儿中心的妊娠时间。因此,本研究中建立的人工智能驱动的随机森林预测模型为改善临床实践和优化有生育问题的人实现为人父母的机会提供了一种方法:本研究得到了台湾国家科学技术委员会(MOST 108-2321-B-006-013-)的资助。没有利益冲突。试验注册号:不适用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
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