Predicting Cell Cleavage Timings from Time-Lapse Videos of Human Embryos

IF 3.7 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Akriti Sharma, Ayaz Z. Ansari, R. Kakulavarapu, M. Stensen, M. Riegler, H. Hammer
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引用次数: 1

Abstract

Assisted reproductive technology is used for treating infertility, and its success relies on the quality and viability of embryos chosen for uterine transfer. Currently, embryologists manually assess embryo development, including the time duration between the cell cleavages. This paper introduces a machine learning methodology for automating the computations for the start of cell cleavage stages, in hours post insemination, in time-lapse videos. The methodology detects embryo cells in video frames and predicts the frame with the onset of the cell cleavage stage. Next, the methodology reads hours post insemination from the frame using optical character recognition. Unlike traditional embryo cell detection techniques, our suggested approach eliminates the need for extra image processing tasks such as locating embryos or removing extracellular material (fragmentation). The methodology accurately predicts cell cleavage stages up to five cells. The methodology was also able to detect the morphological structures of later cell cleavage stages, such as morula and blastocyst. It takes about one minute for the methodology to annotate the times of all the cell cleavages in a time-lapse video.
从人类胚胎延时录像预测细胞分裂时间
辅助生殖技术用于治疗不孕不育,其成功取决于子宫移植胚胎的质量和生存能力。目前,胚胎学家手动评估胚胎发育,包括细胞分裂之间的持续时间。本文介绍了一种机器学习方法,用于在延时视频中自动计算受精后数小时内细胞切割阶段的开始。该方法检测视频帧中的胚胎细胞,并预测细胞切割阶段开始时的帧。接下来,该方法使用光学字符识别从框架中读取受精后的小时数。与传统的胚胎细胞检测技术不同,我们提出的方法消除了对额外图像处理任务的需要,如定位胚胎或去除细胞外物质(碎片)。该方法准确预测了多达五个细胞的细胞切割阶段。该方法还能够检测后期细胞切割阶段的形态结构,如桑椹胚和胚泡。该方法在延时视频中注释所有细胞裂解的时间大约需要一分钟。
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
Big Data and Cognitive Computing
Big Data and Cognitive Computing Business, Management and Accounting-Management Information Systems
CiteScore
7.10
自引率
8.10%
发文量
128
审稿时长
11 weeks
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