微流控技术--一种用于高质量精子选择的新技术,可提高人工生殖技术的效果。

IF 2.5 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY FASEB bioAdvances Pub Date : 2024-08-23 DOI:10.1096/fba.2024-00041
Ghulam Rasool Bhat, Farooz Ahmad Lone, Jasmer Dalal
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引用次数: 0

摘要

微流体技术是一种优质精子选择技术。人类夫妇无法受孕,世界上大量动物也是如此。男性精子的缺陷会导致受孕失败,因此辅助生殖的结果也会受到精子质量的影响。微流控技术(Microfluidics)处理的是以层流流线形式在小规模微通道网络中运行的微量(μL)液体。微流体精子筛选设计是以芯片形式开发的,模拟了体内情况。在这里,精子是根据运动性和精子行为特性进行选择和分析的。与传统的精子筛选方法相比,这种精子筛选方法能产生高质量、有活力、DNA未受损或受损最少的精子细胞,提高牛人工授精的成功率,并在体外受精(IVF)和卵胞浆内单精子显微注射(ICSI)辅助生殖中提高受孕率和活产率。此外,还可以通过调节微流控芯片中的流速来控制卵母细胞可利用的精子浓度。这项技术面临的挑战包括芯片的商业化、开发功能齐全的物种专用微流控工具、文献中的研究数量有限,以及需要对家畜的生殖生理有透彻的了解。总之,在辅助生殖中采用微流控系统进行精子选择,有望在体外受精和卵胞浆内单精子显微注射中取得巨大成功。未来的前景是使这项技术更加卓越,并需要修改芯片设计,使其具有成本效益和物种特异性,为商业化做好准备。要在体外程序中更广泛地应用微流控精子选择技术,还需要对动物物种进行全面研究。
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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Microfluidics—A novel technique for high-quality sperm selection for greater ART outcomes

Microfluidics represent a quality sperm selection technique. Human couples fail to conceive and this is so in a significant population of animals worldwide. Defects in male counterpart lead to failure of conception so are outcomes of assisted reproduction affected by quality of sperm. Microfluidics, deals with minute volumes (μL) of liquids run in small-scale microchannel networks in the form of laminar flow streamlines. Microfluidic sperm selection designs have been developed in chip formats, mimicking in vivo situations. Here sperms are selected and analyzed based on motility and sperm behavioral properties. Compared to conventional sperm selection methods, this selection method enables to produce high-quality motile sperm cells possessing non-damaged or least damaged DNA, achieve greater success of insemination in bovines, and achieve enhanced pregnancy rates and live births in assisted reproduction—in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI). Besides, the concentration of sperm available to oocyte can be controlled by regulating the flow rate in microfluidic chips. The challenges in this technology are commercialization of chips, development of fully functional species-specific microfluidic tools, limited number of studies available in literature, and need of thorough understanding in reproductive physiology of domestic animals. In conclusion, incorporation of microfluidic system in assisted reproduction for sperm selection may promise a great success in IVF and ICSI outcomes. Future prospectives are to make this technology more superior and need to modify chip designs which is cost effective and species specific and ready for commercialization. Comprehensive studies in animal species are needed to be carried out for wider application of microfluidic sperm selection in in vitro procedures.

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来源期刊
FASEB bioAdvances
FASEB bioAdvances Multiple-
CiteScore
5.40
自引率
3.70%
发文量
56
审稿时长
10 weeks
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