利用深度学习和大型显微镜图像数据集开发胚胎自动分级系统

Tsung-Jui Chen, Wei-Lin Zheng, Chun-Hsin Liu, I-Hang Huang, H. Lai, Mark Liu
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引用次数: 44

摘要

体外受精(IVF)胚胎活力的评估主要基于主观的视觉分析,受观察者内部和观察者之间差异的限制,并且任务耗时。在这项研究中,我们使用深度学习和大量微观胚胎图像数据集来开发胚胎评估的自动分级系统。本研究包括2014年3月6日至2018年4月13日在Stork Fertility Center (https://www.e-stork.com.tw)进行的4,146个试管婴儿周期的16,201个胚胎的171,239张图像。在受精后112 ~ 116小时(第5天)或136 ~ 140小时(第6天)用倒置显微镜(Zeiss Axio Observer Z1)拍摄图像。以ImageNet数据集训练的预训练网络为卷积基础,将卷积神经网络(CNN)应用于胚胎图像,使用ResNet50架构对ImageNet参数进行微调。将预测的分级结果与训练有素的胚胎学家的分级结果进行比较,以评估模型的性能。图像由训练有素的胚胎学家根据加德纳分级系统进行标记:囊胚发育等级为3-6,ICM质量为A、B或C;将图像预处理后分为训练组、验证组和测试组,其中训练组占60%,验证组占20%,测试组占20%。ResNet50算法在分配给训练组的60%图像上进行训练,并使用分配给测试组的20%图像评估算法的性能。结果显示,所有三个分级类别的平均预测准确率为75.36%:囊胚发育为96.24%,ICM质量为91.07%,TE质量为84.42%。据我们所知,这是第一个使用亚洲人口大数据集的胚胎自动分级系统的研究。将本研究成果与结合IVF电子病历平台的延时显微镜系统相结合,将实现一个全自动化、无创的胚胎评估管道。
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Using Deep Learning with Large Dataset of Microscope Images to Develop an Automated Embryo Grading System
The assessment of embryo viability for in vitro fertilization (IVF) is mainly based on subjective visual analysis, with the limitation of intra- and inter-observer variation and a time-consuming task. In this study, we used deep learning with large dataset of microscopic embryo images to develop an automated grading system for embryo assessment. This study included a total of 171,239 images from 16,201 embryos of 4,146 IVF cycles at Stork Fertility Center (https://www.e-stork.com.tw) from March 6, 2014 to April 13, 2018. The images were captured by inverted microscope (Zeiss Axio Observer Z1) at 112 to 116 hours (Day 5) or 136 to 140 hours (Day 6) after fertilization. Using a pre-trained network trained on the ImageNet dataset as convolution base, we applied Convolutional Neural Network (CNN) on embryo images, using ResNet50 architecture to fine-tune ImageNet parameters. The predicted grading results was compared with the grading results from trained embryologists to evaluate the model performance. The images were labeled by trained embryologists, based on Gardner’s grading system: blastocyst development ranking from 3–6, ICM quality as A, B, or C; and TE quality as a, b, or c. After pre-processing, the images were divided into training, validation, and test groups, in which 60% were allocated to the training group, 20% to the validation group, and 20% to the test group. The ResNet50 algorithm was trained on the 60% images allocated to the training group, and the algorithm’s performance was evaluated using the 20% images allocated to the test group. The results showed an average predictive accuracy of 75.36% for the all three grading categories: 96.24% for blastocyst development, 91.07% for ICM quality, and 84.42% for TE quality. To the best of our knowledge, this is the first study of an automatic embryo grading system using large dataset from Asian population. Combing the promising results obtained in this study with time-lapse microscope system integrated with IVF Electronic Medical Record platform, a fully automated and non-invasive pipeline for embryo assessment will be achieved.
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审稿时长
16 weeks
期刊最新文献
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