Use of federated learning to develop an artificial intelligence model predicting usable blastocyst formation from pre-ICSI oocyte images

IF 3.7 2区医学 Q1 OBSTETRICS & GYNECOLOGY

Reproductive biomedicine online Pub Date : 2024-08-13 DOI:10.1016/j.rbmo.2024.104403

J.M.M. Hall , T.V. Nguyen , A.W. Dinsmore , D. Perugini , M. Perugini , N. Fukunaga , Y. Asada , M. Schiewe , A.Y.X. Lim , C. Lee , N. Patel , H. Bhadarka , J. Chiang , D.P. Bose , S. Mankee-Sookram , C. Minto-Bain , E. Bilen , S.M. Diakiw

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引用次数: 0

Abstract

Research question

Can federated learning be used to develop an artificial intelligence (AI) model for evaluating oocyte competence using two-dimensional images of denuded oocytes in metaphase II prior to intracytoplasmic sperm injection (ICSI)?

Results

The oocyte AI model demonstrated area under the curve (AUC) up to 0.65 on two blind test datasets. High sensitivity for predicting competent oocytes (83–88%) was offset by lower specificity (26–36%). Exclusion of confounding biological variables (male factor infertility and maternal age ≥35 years) improved AUC up to 14%, primarily due to increased specificity. AI score correlated with size of the zona pellucida and perivitelline space, and ooplasm appearance. AI score also correlated with blastocyst expansion grade and morphological quality. The sum of AI scores from oocytes in group culture images predicted the formation of two or more usable blastocysts (AUC 0.77).

Conclusion

An AI model to evaluate oocyte competence was developed using federated learning, representing an essential step in protecting patient data. The AI model was significantly predictive of oocyte competence, as defined by usable blastocyst formation, which is a critical factor for IVF success. Potential clinical utility ranges from selective oocyte fertilization to guiding treatment decisions regarding additional rounds of oocyte retrieval.

Design

In total, 10,677 oocyte images with associated metadata were collected prospectively by eight IVF clinics across six countries. AI training used federated learning, where data were retained on regional servers to comply with data privacy laws. The final AI model required a single image as input to evaluate oocyte competence, which was defined by the formation of a usable blastocyst (≥expansion grade 3 by day 5 or 6 post ICSI).

查看原文本刊更多论文

利用联合学习技术开发人工智能模型，从人工授精前的卵母细胞图像预测可用囊胚的形成。

研究问题：能否利用联合学习开发一种人工智能（AI）模型，利用卵胞浆内单精子注射（ICSI）前处于分裂期 II 的去核卵母细胞的二维图像来评估卵母细胞的能力？在两个盲测数据集上，卵母细胞 AI 模型的曲线下面积（AUC）高达 0.65。预测合格卵母细胞的灵敏度较高（83%-88%），但特异性较低（26%-36%）。排除混杂的生物变量（男性因素不育和母亲年龄≥35 岁）后，AUC 可提高 14%，这主要是由于特异性提高了。AI 评分与透明带和脐周间隙的大小以及卵原细胞的外观相关。AI 评分还与囊胚扩增等级和形态质量相关。组培养图像中卵母细胞的 AI 评分总和可预测两个或更多可用囊胚的形成（AUC 0.77）：结论：利用联合学习开发了一个评估卵母细胞能力的人工智能模型，这是保护患者数据的重要一步。人工智能模型对卵母细胞能力有明显的预测作用，卵母细胞能力是指可用囊胚的形成，而可用囊胚的形成是试管婴儿成功的关键因素。潜在的临床应用范围包括选择性卵母细胞受精，以及指导有关额外几轮卵母细胞检索的治疗决策：设计：六个国家的八家试管婴儿诊所共收集了 10,677 张卵母细胞图像及相关元数据。人工智能训练采用联合学习方式，数据保留在地区服务器上，以遵守数据隐私法。最终的人工智能模型需要单个图像作为输入，以评估卵母细胞的能力，其定义是形成可用的囊胚（ICSI 后第 5 或第 6 天≥扩展等级 3）。

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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来源期刊

Reproductive biomedicine online 医学-妇产科学

CiteScore

7.20

自引率

7.50%

发文量

391

审稿时长

50 days

期刊介绍： Reproductive BioMedicine Online covers the formation, growth and differentiation of the human embryo. It is intended to bring to public attention new research on biological and clinical research on human reproduction and the human embryo including relevant studies on animals. It is published by a group of scientists and clinicians working in these fields of study. Its audience comprises researchers, clinicians, practitioners, academics and patients. Context: The period of human embryonic growth covered is between the formation of the primordial germ cells in the fetus until mid-pregnancy. High quality research on lower animals is included if it helps to clarify the human situation. Studies progressing to birth and later are published if they have a direct bearing on events in the earlier stages of pregnancy.