Electrical sensing of single oocytes in microfluidic systems: A mini review

Uwe Schnakenberg, Yuan Cao
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Abstract

The noninvasive and label-free electrical characterization of single cells is increasingly gaining interest over the last years. Besides cancer cells, oocytes are in the focus of those investigations. The study of oocytes is relevant for two areas: on the one hand, the quality of mammalian oocytes is important in artificial reproduction technology for a high fertilization yield. On the other hand, amphibian oocytes are well established to be used as host cells for the characterization of ion-channel kinetics for drug screening. For both areas, easy-to-perform and reliable characterization techniques are needed. This mini-review summarizes important developments of characterizing oocytes with microfluidic systems in combination with observer-independent noninvasive electrical sensing. Such miniaturized microfluidic systems can be improved to facilitate multiple oocyte characterizations simultaneously for higher throughput screening.

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修订 R1 微流体系统中的单个卵母细胞电传感--微型综述
近年来,对单细胞进行无创、无标记的电学表征越来越受到人们的关注。除了癌细胞,卵母细胞也是研究的重点。对卵母细胞的研究涉及两个领域:一方面,哺乳动物卵母细胞的质量对人工繁殖技术中的高受精率非常重要。另一方面,两栖动物的卵母细胞已被确立为用于药物筛选的离子通道动力学表征的宿主细胞。这两个领域都需要易于操作且可靠的表征技术。这篇微型综述总结了利用微流体系统结合观察者无关的非侵入式电传感表征卵母细胞的重要进展。这种微型化的微流控系统可以改进,以便同时进行多种卵母细胞表征,从而实现更高通量的筛选。本文受版权保护。
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