Sperm DNA fragmentation and microfluidics: A new era in human sperm selection

Medicina Reproductiva y Embriología Clínica Pub Date : 2022-09-01 DOI:10.1016/j.medre.2022.100121

Maria Luisa Pardiñas , Angel Martin , David Ortega-Jaén , Jose María De los Santos , Thamara Viloria , Pilar Gamiz , Maria José De los Santos

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Abstract

The male factor plays a decisive role in reproduction and, despite being an area that has been extensively studied, there are events that remain unknown, such as sperm DNA fragmentation. This cause of infertility has been the subject of study during the last decades and has been associated with poor semen parameters and low reproductive outcomes. Among the techniques that have emerged to mitigate this problem is the innovative field of microfluidics. Microfluidic-based devices have been developed to be applied as sperm selection methods, reporting promising results in the non-invasive selection of sperm of higher quality, and less DNA fragmentation. The nature of these devices lies in sperm self-selection by simulating an in vivo environment. The present review discusses the mechanisms responsible for sperm DNA fragmentation and its implication in the field of assisted reproduction introducing, in addition, microfluidics as a potential application for human sperm selection.

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精子DNA断裂和微流体:人类精子选择的新时代

男性因素在生殖中起着决定性的作用，尽管这是一个已被广泛研究的领域，但仍有一些事件是未知的，例如精子DNA断裂。在过去的几十年里，不孕不育的原因一直是研究的主题，并且与精液参数差和生殖结果低有关。为了缓解这一问题而出现的技术之一是微流体的创新领域。基于微流体的设备已被开发用于精子选择方法，在非侵入性选择更高质量、更少DNA断裂的精子方面取得了令人鼓舞的结果。这些装置的本质在于通过模拟体内环境来实现精子的自我选择。本文综述了精子DNA断裂的机制及其在辅助生殖领域的意义，并介绍了微流控技术在人类精子选择中的潜在应用。

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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Medicina Reproductiva y Embriología Clínica

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