微流控系统用于从组织切片 TESE 标本中快速分离精子。

Microfluidic System for Rapid Isolation of Sperm From Microdissection TESE Specimens.

机构信息

University of Utah School of Medicine, Andrology & IVF Laboratories, Salt Lake City, UT; University of Utah, Department of Mechanical Engineering, Salt Lake City, UT; Nanonc Inc., Salt Lake City, UT.

University of Utah, Department of Electrical and Computer Engineering, Salt Lake City, UT.

出版信息

Urology. 2020 Jun;140:70-76. doi: 10.1016/j.urology.2019.12.053. Epub 2020 Feb 26.

DOI:10.1016/j.urology.2019.12.053

PMID:32112776

Abstract

OBJECTIVES

To demonstrate a novel prototype microfluidic system for rapid isolation of sperm from real and simulated microdissection testicular sperm extraction samples.

METHODS

The novel microfluidic system was tested using minced testicular biopsies from patients with nonobstructive azoospermia. The samples were split into 2 portions, conventional processing vs microfluidic. The embryologists were blinded to the processing protocol and searched the specimens for sperm after processing. We recorded the number of sperm found and the time to sperm identification and compared the sperm retrieval rates.

RESULTS

When compared to conventional methods, samples processed through the microfluidic system were cleaner (decreased somatic cells/debris), with the average number of sperm identified per minute improving from 1.52 sperm per minute for the control and 13.5 sperm per minute with the device yielding an 8.88 fold improvement in the sperm found per minute for the device as compared to the control. Preliminary viability and morphology tests show a minimal impact on sperm processed through the microfluidic system.

CONCLUSION

The presented microfluidic system can facilitate rapid and efficient isolation of sperm from microdissection testicular sperm extraction samples. A prospective clinical trial to verify these results is needed to confirm this preliminary data.

摘要

目的

展示一种新型的微流控系统，用于快速从实际和模拟的微量睾丸精子提取样本中分离精子。

方法

该新型微流控系统使用非梗阻性无精子症患者的睾丸活检组织进行了测试。将样本分为两部分，常规处理与微流控处理。胚胎学家对处理方案一无所知，在处理后对标本进行精子搜索。我们记录了找到的精子数量和精子鉴定所需的时间，并比较了精子回收率。

结果

与传统方法相比，通过微流控系统处理的样本更干净（体细胞/碎片减少），每分钟鉴定的精子数量从对照组的 1.52 个/分钟提高到 13.5 个/分钟，设备每分钟找到的精子数量提高了 8.88 倍。初步的活力和形态学测试表明，微流控系统处理的精子受到的影响很小。

结论

所提出的微流控系统可以促进从微量睾丸精子提取样本中快速有效地分离精子。需要进行前瞻性临床试验来验证这些结果，以确认这些初步数据。

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微流控系统用于从组织切片 TESE 标本中快速分离精子。

Microfluidic System for Rapid Isolation of Sperm From Microdissection TESE Specimens.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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