开发用于人工卵巢的 3D 可生物降解纤维蛋白支架的第一步。

First step in developing a 3D biodegradable fibrin scaffold for an artificial ovary.

机构信息

Pôle de Recherche en Gynécologie, Institut de Recherche Expérimentale et Clinique, Université Catholique de Louvain, Brussels, Belgium.

出版信息

J Ovarian Res. 2013 Nov 25;6(1):83. doi: 10.1186/1757-2215-6-83.

DOI:10.1186/1757-2215-6-83

PMID:24274108

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4176293/

Abstract

BACKGROUND

Although transplantation of cryopreserved ovarian tissue is a promising approach to restore fertility in cancer patients, it is not advisable for women at risk of ovarian involvement due to the threat of reintroducing malignant cells. The aim of this study was therefore to find an alternative for these patients by development of an artificial ovary.

METHODS

For construction of the artificial ovary matrix, we used a central composite design to investigate nine combinations of fibrinogen (mg/ml) and thrombin (IU/mL) (F/T): F1/T4, F12.5/T1, F12.5/T20, F25/T0.1, F25/T4, F25/T500, F50/T1, F50/T20 and F100/T4. From the first qualitative analyses (handling and matrix size), five combinations (F12.5/T1, F25/T4, F50/T20, F50/T1 and F100/T4) yielded positive results. They were further evaluated in order to assess fibrin matrix degradation and homogeneous cell encapsulation (density), survival and proliferation (Ki67), and atresia (TUNEL) before and after 7 days of in vitro culture. To determine the best compromise between maximizing the dynamic density (Y1) and minimizing the apoptosis rate (Y2), we used the desirability function approach.

RESULTS

Two combinations (F12.5/T1 and F25/T4) showed greater distribution of cells before in vitro culture, reproducible degradation of the fibrin network and adequate support for isolated human ovarian stromal cells, with a high proportion of Ki67-positive cells. SEM analysis revealed a network of fibers with regular pores and healthy stromal cells after in vitro culture with both F/T combinations.

CONCLUSION

This study reports two optimal F/T combinations that allow survival and proliferation of isolated human ovarian cells. Further studies are required to determine if such a scaffold will also be a suitable environment for isolated ovarian follicles.

摘要

背景

尽管冷冻卵巢组织移植是恢复癌症患者生育能力的一种很有前途的方法，但对于有卵巢受累风险的女性来说，由于存在引入恶性细胞的威胁，这种方法并不明智。因此，本研究旨在通过开发人工卵巢来为这些患者寻找一种替代方法。

方法

为了构建人工卵巢基质，我们使用中心复合设计来研究九种纤维蛋白原（mg/ml）和凝血酶（IU/mL）（F/T）组合（F1/T4、F12.5/T1、F12.5/T20、F25/T0.1、F25/T4、F25/T500、F50/T1、F50/T20 和 F100/T4）。从最初的定性分析（处理和基质大小）中，五种组合（F12.5/T1、F25/T4、F50/T20、F50/T1 和 F100/T4）产生了阳性结果。进一步评估了这五种组合，以评估纤维蛋白基质降解和同质细胞包封（密度）、存活和增殖（Ki67）以及体外培养 7 天后的闭锁（TUNEL）。为了在最大化动态密度（Y1）和最小化细胞凋亡率（Y2）之间找到最佳折衷方案，我们使用了适宜性函数方法。

结果

两种组合（F12.5/T1 和 F25/T4）在体外培养前显示出更高的细胞分布，纤维蛋白网络的可重复降解以及对分离的人卵巢基质细胞的充分支持，Ki67 阳性细胞比例较高。SEM 分析显示，两种 F/T 组合在体外培养后均呈现出纤维网络和健康基质细胞的规则孔。

结论

本研究报道了两种允许分离的人卵巢细胞存活和增殖的最佳 F/T 组合。需要进一步研究以确定这种支架是否也将成为分离的卵巢卵泡的合适环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/526d/4176293/02d9ffc5518c/1757-2215-6-83-1.jpg

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开发用于人工卵巢的 3D 可生物降解纤维蛋白支架的第一步。

First step in developing a 3D biodegradable fibrin scaffold for an artificial ovary.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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