冷冻对卵母细胞和胚胎发育的损害

Pegah Shayegh, Farzaneh Rahmati, Fatemeh Baniasadi, Meisam Jangkhah, Hasan Rajabimaham, M. Ghalamboran, Rouhollah Fathi
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引用次数: 0

摘要

简介为了帮助拯救濒危物种,使其免于灭绝,并帮助照顾它们,维持其繁殖能力至关重要。胎儿的生命和成长过程始于受孕,并按照生物钟的时间进行。通过冷冻生物学,我们今天已经可以解决科学伦理问题,通过停止其生物时间来干扰时钟的运行。实际上,可以通过将细胞储存在零下 196 摄氏度或液氮温度下,使其停止所有新陈代谢活动来实现。自 200 年前起,保存生殖细胞就已成为一种普遍做法。从那时起,这种方法有了许多改进,尤其是针对高危妇女。从那时起,冷冻技术取得了长足的进步,有几种冷冻技术被用于保存有不孕风险的妇女的卵巢组织、卵泡和卵母细胞。不同的方法有不同的成功率。在保存技术中,玻璃化技术的效果更好,也更常用。哺乳动物卵母细胞的细胞结构错综复杂。这种细胞的各组成部分对渗透作用和温度变化特别敏感。例如,细胞膜在成熟、体外受精过程中发生的变化,以及水和冷冻保护剂之间的渗透性差异都会引起细胞膜的变化。卵母细胞冷冻会导致各种损伤,包括解冻后细胞质量和活力下降。最近的研究正在寻找改进冷冻程序和提高冷冻卵母细胞质量的方法。冷冻对卵母细胞及其潜能或胚胎发育的有利或不利影响是这篇综述文章的主题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Damages of Freezing on the Development of Oocyte and Embryos
Introduction: To assist save endangered species from extinction and to aid in their care, it is crucial to sustaining their reproductive capacity. The fetus's life and growth processes begin at conception and proceed in accordance with a biological clock's timing. With today's understanding through cryobiology, observing scientific ethics problems and interfering with the clock's operation by stopping its biological time is possible. Practically, it is accomplished by storing the cell at -196 °C, or the temperature of liquid nitrogen, where all metabolic activity ceases. Since 200 years ago, germ cell preservation has been a common practice. Since then, there have been many improvements, particularly for at-risk women. Since then, significant progress has been achieved, and several freezing techniques are being used to preserve ovarian tissue, follicles, and oocytes in women who are at risk of infertility. Different approaches have different levels of success. Among preservation techniques, vitrification performs better and is used more frequently. The cellular configuration of the mammalian oocyte is intricate. This cell's constituent parts are particularly sensitive to osmosis and variations in temperature. For instance, the alterations to the cell membrane that occur during maturation, in vitro fertilization, and the differential between the permeability of water and cryoprotectants can all be mentioned. Oocyte freezing results in a variety of impairments, including a reduction in the quality and viability of cells after thawing. Recent studies are looking for ways to enhance freezing procedures and raise the caliber of frozen oocytes. The favorable or negative effects of freezing on the oocyte and its potential, or embryo development, are the subject of this review article.
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