Female Fertility Preservation through Stem Cell-based Ovarian Tissue Reconstitution In Vitro and Ovarian Regeneration In Vivo.

Clinical Medicine Insights-Reproductive Health Pub Date : 2019-05-23 eCollection Date: 2019-01-01 DOI:10.1177/1179558119848007
Taichi Akahori, Dori C Woods, Jonathan L Tilly
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引用次数: 23

Abstract

Historically, approaches designed to offer women diagnosed with cancer the prospects of having a genetically matched child after completion of their cytotoxic treatments focused on the existing oocyte population as the sole resource available for clinical management of infertility. In this regard, elective oocyte and embryo cryopreservation, as well as autologous ovarian cortical tissue grafting posttreatment, have gained widespread support as options for young girls and reproductive-age women who are faced with cancer to consider. In addition, the use of ovarian protective therapies, including gonadotropin-releasing hormone agonists and sphingosine-1-phosphate analogs, has been put forth as an alternative way to preserve fertility by shielding existing oocytes in the ovaries in vivo from the side-effect damage caused by radiotherapy and many chemotherapeutic regimens. This viewpoint changed with the publication of now numerous reports that adult ovaries of many mammalian species, including humans, contain a rare population of oocyte-producing germ cells-referred to as female germline or oogonial stem cells (OSCs). This new line of study has fueled research into the prospects of generating new oocytes, rather than working with existing oocytes, as a novel approach to sustain or restore fertility in female cancer survivors. Here, we overview the history of work from laboratories around the world focused on improving our understanding of the biology of OSCs and how these cells may be used to reconstitute "artificial" ovarian tissue in vitro or to regenerate damaged ovarian tissue in vivo as future fertility-preservation options.

Abstract Image

Abstract Image

体外基于干细胞的卵巢组织重建和体内卵巢再生的女性生育能力保存。
从历史上看,为诊断为癌症的妇女提供在完成细胞毒性治疗后拥有基因匹配孩子的前景的方法,主要集中在现有的卵母细胞群上,作为临床管理不孕症的唯一资源。在这方面,选择性卵母细胞和胚胎冷冻保存,以及治疗后自体卵巢皮质组织移植,作为年轻女孩和面临癌症的育龄妇女的选择,已经获得了广泛的支持。此外,已经提出使用卵巢保护疗法,包括促性腺激素释放激素激动剂和鞘氨醇-1-磷酸类似物,作为保护卵巢内现有卵母细胞免受放射治疗和许多化疗方案引起的副作用损伤的另一种方法。这一观点随着大量报道的发表而改变,这些报道称,包括人类在内的许多哺乳动物的成年卵巢中含有一种罕见的产生卵母细胞的生殖细胞——被称为雌性种系细胞或卵母干细胞(osc)。这一新的研究路线推动了对产生新的卵母细胞的前景的研究,而不是与现有的卵母细胞一起工作,作为一种维持或恢复女性癌症幸存者生育能力的新方法。在这里,我们概述了世界各地实验室的工作历史,这些工作的重点是提高我们对OSCs生物学的理解,以及如何使用这些细胞在体外重建“人工”卵巢组织或在体内再生受损的卵巢组织,作为未来的生育能力保存选择。
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
自引率
0.00%
发文量
0
审稿时长
8 weeks
期刊介绍: Clinical Medicine Insights: Reproductive Health is a peer reviewed; open access journal, which covers all aspects of Reproduction: Gynecology, Obstetrics, and Infertility, spanning both male and female issues, from the physical to the psychological and the social, including: sex, contraception, pregnancy, childbirth, and related topics such as social and emotional impacts. It welcomes original research and review articles from across the health sciences. Clinical subjects include fertility and sterility, infertility and assisted reproduction, IVF, fertility preservation despite gonadotoxic chemo- and/or radiotherapy, pregnancy problems, PPD, infections and disease, surgery, diagnosis, menopause, HRT, pelvic floor problems, reproductive cancers and environmental impacts on reproduction, although this list is by no means exhaustive Subjects covered include, but are not limited to: • fertility and sterility, • infertility and ART, • ART/IVF, • fertility preservation despite gonadotoxic chemo- and/or radiotherapy, • pregnancy problems, • Postpartum depression • Infections and disease, • Gyn/Ob surgery, • diagnosis, • Contraception • Premenstrual tension • Gynecologic Oncology • reproductive cancers • environmental impacts on reproduction, • Obstetrics/Gynaecology • Women''s Health • menopause, • HRT, • pelvic floor problems, • Paediatric and adolescent gynaecology • PID
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