人工卵巢生物工程的自动评估：一种为患有恶性肿瘤的青春期前女性患者进行生育力保存的模型。

Automatic Evaluation for Bioengineering of Human Artificial Ovary: A Model for Fertility Preservation for Prepubertal Female Patients with a Malignant Tumor.

机构信息

Department of Obstetrics and Gynaecology, Medical Faculty, Cologne University, 50931 Cologne, Germany.

NHC Key Laboratory of Male Reproduction and Genetics, Guangdong Provincial Reproductive Science Institute, Guangdong Provincial Fertility Hospital, Guangzhou 510062, China.

出版信息

Int J Mol Sci. 2022 Oct 17;23(20):12419. doi: 10.3390/ijms232012419.

DOI:10.3390/ijms232012419

PMID:36293273

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9604043/

Abstract

INTRODUCTION

The in vitro culture of primordial follicles is the only available option for preserving fertility in prepubertal girls with malignant tumors. The cultivation of primordial follicles in scaffolds as artificial ovaries is a promising approach for this.

METHODS

Dissociated follicles were placed into an artificial ovarian scaffold composed of fibrinogen and thrombin. The follicles were cultured in a dish dedicated to live cell imaging and observed for growth using immunofluorescence and development via optical microscopy. The morphology of the follicles in the scaffold was three-dimensionally reconstructed using the Imaris software. Growth and development were also quantified.

RESULTS

The morphology of artificial ovaries began to degrade over time. Within approximately 7 days, primordial follicles were activated and grew into secondary follicles. A comparison of optical and confocal microscopy results revealed the superior detection of live cells using confocal microscopy. The three-dimensional reconstruction of the confocal microscopy data enabled the automatic enumeration and evaluation of the overall morphology of many follicles.

CONCLUSIONS

The novel artificial ovary-enabled primordial follicles to enter the growth cycle after activation and grow into secondary follicles. The use of a fibrin scaffold as a carrier preserves the developmental potential of primordial germ cells and is a potentially effective method for preserving fertility in prepubertal girls.

摘要

简介

体外培养原始卵泡是保存患有恶性肿瘤的青春期前女孩生育能力的唯一可行选择。在支架中培养原始卵泡作为人工卵巢是一种很有前途的方法。

方法

将分离的卵泡放入由纤维蛋白原和凝血酶组成的人工卵巢支架中。将卵泡置于专门用于活细胞成像的培养皿中，通过免疫荧光观察其生长情况，并通过光学显微镜观察其发育情况。使用 Imaris 软件对支架中卵泡的形态进行三维重建，并对其生长和发育进行定量分析。

结果

人工卵巢的形态随时间开始降解。大约 7 天内，原始卵泡被激活并生长为次级卵泡。光学显微镜和共聚焦显微镜结果的比较表明，共聚焦显微镜更能检测到活细胞。共聚焦显微镜数据的三维重建可以自动计数和评估许多卵泡的整体形态。

结论

新型人工卵巢使原始卵泡在激活后进入生长周期，并生长为次级卵泡。使用纤维蛋白支架作为载体可以保留原始生殖细胞的发育潜能，是一种在青春期前女孩中保存生育能力的有效方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/67c4/9604043/3b5f8cb19a82/ijms-23-12419-g001.jpg

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人工卵巢生物工程的自动评估：一种为患有恶性肿瘤的青春期前女性患者进行生育力保存的模型。

Automatic Evaluation for Bioengineering of Human Artificial Ovary: A Model for Fertility Preservation for Prepubertal Female Patients with a Malignant Tumor.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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