Deep learning-based selection of human sperm with high DNA integrity

Christopher McCallum; Jason Riordon; Yihe Wang; Tian Kong; Jae Bem You; Scott Sanner; Alexander Lagunov; Thomas G. Hannam; Keith Jarvi; David Sinton

doi:10.1038/s42003-019-0491-6

Deep learning-based selection of human sperm with high DNA integrity

Christopher McCallum, Jason Riordon, Yihe Wang, Tian Kong, Jae Bem You, Scott Sanner, Alexander Lagunov, Thomas G. Hannam, Keith Jarvi, David Sinton

Department of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

82 Scopus citations

Abstract

Despite the importance of sperm DNA to human reproduction, currently no method exists to assess individual sperm DNA quality prior to clinical selection. Traditionally, skilled clinicians select sperm based on a variety of morphological and motility criteria, but without direct knowledge of their DNA cargo. Here, we show how a deep convolutional neural network can be trained on a collection of ~1000 sperm cells of known DNA quality, to predict DNA quality from brightfield images alone. Our results demonstrate moderate correlation (bivariate correlation ~0.43) between a sperm cell image and DNA quality and the ability to identify higher DNA integrity cells relative to the median. This deep learning selection process is directly compatible with current, manual microscopy-based sperm selection and could assist clinicians, by providing rapid DNA quality predictions (under 10 ms per cell) and sperm selection within the 86^th percentile from a given sample.

Original language	English
Article number	250
Journal	Communications Biology
Volume	2
Issue number	1
DOIs	https://doi.org/10.1038/s42003-019-0491-6
State	Published - 1 Dec 2019

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abstract = "Despite the importance of sperm DNA to human reproduction, currently no method exists to assess individual sperm DNA quality prior to clinical selection. Traditionally, skilled clinicians select sperm based on a variety of morphological and motility criteria, but without direct knowledge of their DNA cargo. Here, we show how a deep convolutional neural network can be trained on a collection of ~1000 sperm cells of known DNA quality, to predict DNA quality from brightfield images alone. Our results demonstrate moderate correlation (bivariate correlation ~0.43) between a sperm cell image and DNA quality and the ability to identify higher DNA integrity cells relative to the median. This deep learning selection process is directly compatible with current, manual microscopy-based sperm selection and could assist clinicians, by providing rapid DNA quality predictions (under 10 ms per cell) and sperm selection within the 86th percentile from a given sample.",

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AU - McCallum, Christopher

AU - Riordon, Jason

AU - Wang, Yihe

AU - Kong, Tian

AU - You, Jae Bem

AU - Sanner, Scott

AU - Lagunov, Alexander

AU - Hannam, Thomas G.

AU - Jarvi, Keith

AU - Sinton, David

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AB - Despite the importance of sperm DNA to human reproduction, currently no method exists to assess individual sperm DNA quality prior to clinical selection. Traditionally, skilled clinicians select sperm based on a variety of morphological and motility criteria, but without direct knowledge of their DNA cargo. Here, we show how a deep convolutional neural network can be trained on a collection of ~1000 sperm cells of known DNA quality, to predict DNA quality from brightfield images alone. Our results demonstrate moderate correlation (bivariate correlation ~0.43) between a sperm cell image and DNA quality and the ability to identify higher DNA integrity cells relative to the median. This deep learning selection process is directly compatible with current, manual microscopy-based sperm selection and could assist clinicians, by providing rapid DNA quality predictions (under 10 ms per cell) and sperm selection within the 86th percentile from a given sample.

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Deep learning-based selection of human sperm with high DNA integrity

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