The obligate need for accuracy in reporting preclinical studies relevant to clinical trials: autologous germline mitochondrial supplementation for assisted human reproduction as a case study.

IF 3.1 Q1 OBSTETRICS & GYNECOLOGY Therapeutic advances in reproductive health Pub Date : 2020-04-23 eCollection Date: 2020-01-01 DOI:10.1177/2633494120917350
Jonathan L Tilly, Dori C Woods
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引用次数: 2

Abstract

A now large body of work has solidified the central role that mitochondria play in oocyte development, fertilization, and embryogenesis. From these studies, a new technology termed autologous germline mitochondrial energy transfer was developed for improving pregnancy success rates in assisted reproduction. Unlike prior clinical studies that relied on the use of donor, or nonautologous, mitochondria for microinjection into eggs of women with a history of repeated in vitro fertilization failure to enhance pregnancy success, autologous germline mitochondrial energy transfer uses autologous mitochondria collected from oogonial stem cells of the same woman undergoing the fertility treatment. Initial trials of autologous germline mitochondrial energy transfer during - in vitro fertilization at three different sites with a total of 104 patients indicated a benefit of the procedure for improving pregnancy success rates, with the birth of children conceived through the inclusion of autologous germline mitochondrial energy transfer during in vitro fertilization. However, a fourth clinical study, consisting of 57 patients, failed to show a benefit of autologous germline mitochondrial energy transfer-in vitro fertilization versus in vitro fertilization alone for improving cumulative live birth rates. Complicating this area of work further, a recent mouse study, which claimed to test the long-term safety of autologous mitochondrial supplementation during in vitro fertilization, raised concerns over the use of the procedure for reproduction. However, autologous mitochondria were not actually used for preclinical testing in this mouse study. The unwarranted fears that this new study's erroneous conclusions could cause in women who have become pregnant through the use of autologous germline mitochondrial energy transfer during-in vitro fertilization highlight the critical need for accurate reporting of preclinical work that has immediate bearing on human clinical studies.

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与临床试验相关的临床前研究报告的准确性:辅助人类生殖的自体种系线粒体补充作为一个案例研究。
现在大量的工作已经证实了线粒体在卵母细胞发育、受精和胚胎发生中所起的核心作用。在这些研究的基础上,开发了一种新的技术,称为自体种系线粒体能量转移,以提高辅助生殖的妊娠成功率。先前的临床研究依赖于使用供体或非自体线粒体显微注射到有多次体外受精失败史的妇女的卵子中以提高妊娠成功率,而自体种系线粒体能量转移使用从接受生育治疗的同一名妇女的卵母干细胞中收集的自体线粒体。在三个不同部位对104名患者进行的体外受精过程中自体种系线粒体能量转移的初步试验表明,该程序有利于提高妊娠成功率,在体外受精过程中通过包含自体种系线粒体能量转移而受孕的儿童的出生。然而,第四项临床研究,包括57名患者,未能显示自体种系线粒体能量转移体外受精与单独体外受精相比,在提高累计活产率方面的益处。最近的一项小鼠研究使这一领域的工作进一步复杂化,该研究声称测试了体外受精过程中自体线粒体补充的长期安全性,引起了人们对将该程序用于生殖的担忧。然而,在这项小鼠研究中,自体线粒体并没有实际用于临床前试验。这项新研究的错误结论可能会对在体外受精过程中使用自体种系线粒体能量转移而怀孕的妇女造成毫无根据的担忧,这突出了对临床前工作的准确报告的迫切需要,这对人类临床研究有直接的影响。
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