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一种可解释的机器学习模型,用于个体化促性腺激素起始剂量选择在卵巢刺激期间。

An interpretable machine learning model for individualized gonadotrophin starting dose selection during ovarian stimulation.

机构信息

Alife Health, Inc., San Francisco CA, USA.

Department of Obstetrics, Gynecology and Reproductive Sciences, University of California, San Francisco CA, USA.

出版信息

Reprod Biomed Online. 2022 Dec;45(6):1152-1159. doi: 10.1016/j.rbmo.2022.07.010. Epub 2022 Jul 28.

DOI:10.1016/j.rbmo.2022.07.010
PMID:36096871
Abstract

RESEARCH QUESTION

Can we develop an interpretable machine learning model that optimizes starting gonadotrophin dose selection in terms of mature oocytes (metaphase II [MII]), fertilized oocytes (2 pronuclear [2PN]) and usable blastocysts?

DESIGN

This was a retrospective study of patients undergoing autologous IVF cycles from 2014 to 2020 (n = 18,591) in three assisted reproductive technology centres in the USA. For each patient cycle, an individual dose-response curve was generated from the 100 most similar patients identified using a K-nearest neighbours model. Patients were labelled as dose-responsive if their dose-response curve showed a region that maximized MII oocytes, and flat-responsive otherwise.

RESULTS

Analysis of the dose-response curves showed that 30% of cycles were dose-responsive and 64% were flat-responsive. After propensity score matching, patients in the dose-responsive group who received an optimal starting dose of FSH had on average 1.5 more MII oocytes, 1.2 more 2PN embryos and 0.6 more usable blastocysts using 10 IU less of starting FSH and 195 IU less of total FSH compared with patients given non-optimal doses. In the flat-responsive group, patients who received a low starting dose of FSH had on average 0.3 more MII oocytes, 0.3 more 2PN embryos and 0.2 more usable blastocysts using 149 IU less of starting FSH and 1375 IU less of total FSH compared with patients with a high starting dose.

CONCLUSIONS

This study demonstrates retrospectively that using a machine learning model for selecting starting FSH can achieve optimal laboratory outcomes while reducing the amount of starting and total FSH used.

摘要

研究问题

我们能否开发一种可解释的机器学习模型,根据成熟卵母细胞(MII 期)、受精卵(2 原核[2PN])和可用胚胎(囊胚)的数量优化起始促性腺激素剂量的选择?

设计

这是一项在美国三个辅助生殖技术中心进行的 2014 年至 2020 年期间接受自体 IVF 周期的患者回顾性研究(n=18591)。对于每个患者周期,使用 K 最近邻模型识别 100 名最相似的患者,生成个体剂量反应曲线。如果患者的剂量反应曲线显示出最大化 MII 卵母细胞的区域,则将其标记为剂量反应性,否则为平坦反应性。

结果

对剂量反应曲线的分析表明,30%的周期为剂量反应性,64%为平坦反应性。经过倾向评分匹配后,在剂量反应性组中接受最佳起始 FSH 剂量的患者平均多获得 1.5 个 MII 卵母细胞、1.2 个 2PN 胚胎和 0.6 个可用胚胎,而起始 FSH 少 10IU 和总 FSH 少 195IU。在平坦反应性组中,接受低起始 FSH 剂量的患者平均多获得 0.3 个 MII 卵母细胞、0.3 个 2PN 胚胎和 0.2 个可用胚胎,而起始 FSH 少 149IU 和总 FSH 少 1375IU。

结论

这项研究回顾性表明,使用机器学习模型选择起始 FSH 可以在减少起始和总 FSH 使用量的同时实现最佳的实验室结果。

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