Swimming trapper decreases the proportion of chromosomally unbalanced spermatozoa in human Robertsonian translocation carriers.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-11-01 Epub Date: 2024-03-11 DOI:10.1111/andr.13623

Xiao-Nan Liu, Mei-Yi Li, Qing-Ling Ma, Juan Chen, Shuai Liu, Yang Yu, Ling Sun

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引用次数: 0

Abstract

Background: Carriers of reciprocal translocations often have more unbalanced spermatozoa and higher DNA fragmentation rates, elevating reproductive risk. The simple swim-up method (SSUM) can decrease the amount of spermatozoa with abnormal chromatin structure and fragmented DNA, however, it has limited efficacy in eliminating chromosomally unbalanced sperm.

Methods: The spermatozoa of eight Robertsonian translocation (Rob) carriers were split into three groups: original raw semen group (control group); SSUM and swimming trapper method group (STM) processed semen samples. After different semen preparation procedures, semen qualities, sperm chromosomal aneuploidy, and sperm fragmented DNA were evaluated.

Results: Although spermatozoa with higher motility was obtained by both SSUM and STM, the population of faster forward moving sperm was greater with STM as compared to SSUM. While the rates of DNA fragmentation were statistically much lower in both groups than ejaculated semen sample, our data showed better effect on the decrease of DNA fragmentation index (DFI) after selection by STM for patients who have high DFI (>20%) in neat semen. For all patients, significant decrease in the frequency of chromosomally unbalanced spermatozoa was observed after selection using STM. Although similar trends can be seen in the SSUM group, a significant difference was identified in one patient only.

Conclusions: Use of swimming trapper (STM) is superior for enriching high-motile and genetically competent sperm in comparison with SSUM.

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游泳捕捉器可降低人类罗伯逊易位携带者中染色体不平衡精子的比例。

背景：互易易位携带者的精子往往更不平衡，DNA碎片率更高，从而增加了生殖风险。简单游动法（SSUM）可减少染色质结构异常和DNA片段化的精子数量，但在消除染色体不平衡精子方面效果有限：方法：将 8 名罗伯逊易位（Rob）携带者的精子分为三组：原始精液组（对照组）；SSUM 和游泳捕获器法组（STM）处理精液样本。经过不同的精液制备程序后，对精液质量、精子染色体非整倍体和精子DNA碎片进行了评估：尽管 SSUM 和 STM 都能获得运动能力更强的精子，但与 SSUM 相比，STM 获得的前向运动较快的精子数量更多。虽然从统计学角度看，两组精液样本的DNA碎片率都比射精精液样本低得多，但我们的数据显示，对于精液中DNA碎片指数（DFI）较高（>20%）的患者，使用STM筛选后，DNA碎片指数（DFI）的下降效果更好。在使用 STM 进行筛选后，所有患者的染色体不平衡精子频率都有明显下降。虽然在 SSUM 组中也能看到类似的趋势，但只有一名患者的精液存在显著差异：结论：与 SSUM 相比，游泳捕获器（STM）在富集高运动能力和遗传能力精子方面更具优势。

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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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567