Artificial intelligence system for outcome evaluations of human in vitro fertilization-derived embryosOACSTPCDMEDLINE
Artificial intelligence system for outcome evaluations of human in vitro fertilization-derived embryos
Background:In vitro fertilization(IVF)has emerged as a transformative solution for infertility.However,achieving favorable live-birth outcomes remains challenging.Current clinical IVF practices in IVF involve the collection of heterogeneous embryo data through diverse methods,including static images and temporal videos.However,traditional embryo selection methods,primarily reliant on visual inspection of morphology,exhibit variability and are contingent on the experience of practitioners.Therefore,an automated system that can evaluate heterogeneous embryo data to predict the final outcomes of live births is highly desirable. Methods:We employed artificial intelligence(AI)for embryo morphological grading,blastocyst embryo selection,aneuploidy prediction,and final live-birth outcome prediction.We developed and validated the AI models using multitask learning for embryo morphological assessment,including pronucleus type on day 1 and the number of blastomeres,asymmetry,and fragmentation of blastomeres on day 3,using 19,201 embryo photographs from 8271 patients.A neural network was trained on embryo and clin-ical metadata to identify good-quality embryos for implantation on day 3 or day 5,and predict live-birth outcomes.Additionally,a 3D convolutional neural network was trained on 418 time-lapse videos of preimplantation genetic testing(PGT)-based ploidy outcomes for the prediction of aneuploidy and consequent live-birth outcomes. Results:These two approaches enabled us to automatically assess the implantation potential.By combining embryo and maternal metrics in an ensemble AI model,we evaluated live-birth outcomes in a prospective cohort that achieved higher accuracy than experienced embryologists(46.1%vs.30.7%on day 3,55.0%vs.40.7%on day 5).Our results demonstrate the potential for AI-based selection of embryos based on characteristics beyond the observational abilities of human clinicians(area under the curve:0.769,95%confidence interval:0.709-0.820).These findings could potentially provide a noninvasive,high-throughput,and low-cost screening tool to facilitate embryo selection and achieve better outcomes. Conclusions:Our study underscores the AI model's ability to provide interpretable evidence for clinicians in assisted reproduc-tion,highlighting its potential as a noninvasive,efficient,and cost-effective tool for improved embryo selection and enhanced IVF outcomes.The convergence of cutting-edge technology and reproductive medicine has opened new avenues for addressing infertility challenges and optimizing IVF success rates.
Ling Sun;Yibing Han;Yun Yin;Keliang Wu;Kang Zhang;Jiahui Li;Simiao Zeng;Qiangxiang Luo;Hanpei Miao;Yunhao Liang;Linling Cheng;Zhuo Sun;Wa Hou Tai
Department of Reproductive Medicine,Guangzhou Women and Children's Medical Center,Guangzhou Medical University,Guangzhou,Guangdong 510623,ChinaKiang Wu Hospital,Macau Special Administrative Region 999078,ChinaFaculty of Business,City University of Macau,Macau Special Administrative Region 999078,ChinaState Key Laboratory of Reproductive Medicine and Offspring Health,Center for Reproductive Medicine,Institute of Women,Children and Reproductive Health and Key laboratory of Reproductive Endocrinology of Ministry of Education,Shandong University,Jinan,Shandong 250000,ChinaDepartment of Reproductive Medicine,Guangzhou Women and Children's Medical Center,Guangzhou Medical University,Guangzhou,Guangdong 510623,China||Guangzhou National Laboratory,Guangzhou,Guangdong 510000,China||institute for Artificial Intelligence in Medicine,Faculty of Medicine,Macau University of Science and Technology,Macau Special Administrative Region 999078,China||Wenzhou Eye Hospital,Institute for Advanced Studies on Eye Health and Diseases,Wenzhou Medical University,Wenzhou,Zhejiang 325000,ChinaDepartment of Reproductive Medicine,Guangzhou Women and Children's Medical Center,Guangzhou Medical University,Guangzhou,Guangdong 510623,China||Guangzhou National Laboratory,Guangzhou,Guangdong 510000,ChinaDepartment of Reproductive Medicine,Jiangmen Central Hospital,Jiangmen,Guangdong 529000,ChinaGuangzhou National Laboratory,Guangzhou,Guangdong 510000,China||Department of Ophthalmology,Dongguan People's Hospital,The First School of Clinical Medicine,Southern Medical University,Dongguan,Guangdong 523000,Chinainstitute for Artificial Intelligence in Medicine,Faculty of Medicine,Macau University of Science and Technology,Macau Special Administrative Region 999078,ChinaWenzhou Eye Hospital,Institute for Advanced Studies on Eye Health and Diseases,Wenzhou Medical University,Wenzhou,Zhejiang 325000,China
Artificial intelligenceFertilization in vitroEmbryo implantationBlastocystAneuploidyNeural networks,computerLive birth
《中华医学杂志(英文版)》 2024 (016)
1939-1949 / 11
This study was funded by Guangzhou Women and Chil-drens's Medical Center,Guangzhou National Laboratory,Wenzhou Medical University.We thank many volunteers and physicians for grading embryo photographs.
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