考虑到组织形态特征,确定最佳胰腺脱细胞方案

A. S. Ponomareva, N. Baranova, L. A. Kirsanova, G. N. Bubentsova, E. A. Nemets, I. Miloserdov, V. Sevastianov
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摘要

介绍。开发组织工程胰腺结构(TEPC)涉及寻找能够模仿自然细胞外基质(ECM)的结构和组成的基质/支架,这是组织微环境的重要组成部分。从胰腺脱细胞中获得的无细胞组织特异性基质似乎是最适合创建TEPC的基质。胰腺组织脱细胞方案的选择应考虑到原胰腺的形态特征。去细胞化胰腺基质(DPM)中天然组织的结构和组成的保存,以及天然ECM成分的存在,为在创建TEPC时延长功能活跃的胰岛(产生胰岛素)细胞的重要活动创造了条件。目的:确定伴有纤维化、脂肪瘤病和无明显纤维化和脂肪瘤症状的已故供体胰腺脱细胞的最佳参数。材料和方法。我们使用了从已故供体获得多器官后获得的胰腺尾端部分,这部分不适合移植。组织特异性基质是通过物理和化学方法相结合的胰腺脱细胞。采用冻融循环方案和渗透冲击两种方案。对初始胰腺组织和去细胞碎片样本进行组织学分析。结果表明,冻融循环的物理化学方法适用于严重脂肪瘤患者的有效胰腺脱细胞;渗透性休克的物理化学方法适用于弥漫性纤维化的胰腺和无明显纤维化和脂肪瘤症状的胰腺。对于完全的人类胰腺脱细胞,该方案应与原始组织的组织学特征相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determining the optimal pancreatic decellularization protocol, taking into account tissue morphological features
 Introduction. Developing a tissue-engineered pancreatic construct (TEPC) involves a search for matrices/scaffolds capable of mimicking the structure and composition of the natural extracellular matrix (ECM), which is an important component of the tissue microenvironment. A cell-free, tissue-specific matrix obtained from pancreas decellularization seems to be the most suitable for creation of a TEPC. The choice of pancreatic tissue decellularization protocol should take into account the morphological characteristics of the original pancreas. Preservation of the architectonics and composition of the native tissue in the decellularized pancreas matrix (DPM), and the presence of native ECM components allow for creation of conditions for prolonged vital activity of functionally active islet (insulin-producing) cells when creating TEPC.Objective: to determine the optimal parameters for decellularization of deceased donor pancreas with fibrosis, lipomatosis, and without pronounced signs of fibrosis and lipomatosis.Materials and methods. We used the caudal part of the pancreas obtained after multiorgan procurement from deceased donors, which was unsuitable for transplantation. Tissue-specific matrix was obtained by a combination of physical and chemical methods of pancreatic decellularization. A freeze-thaw cycle protocol and two protocols using osmotic shock were used. Samples of initial pancreatic tissue and decellularized fragments were subjected to histological analysis.Results. It was shown that a physico-chemical method with freeze-thaw cycles is suitable for effective pancreatic decellularization in severe lipomatosis; a physico-chemical method using osmotic shock, but different protocol variants, is suitable for pancreas with diffuse fibrosis and for pancreas without pronounced signs of fibrosis and lipomatosis.Conclusion. For complete human pancreatic decellularization, the protocol should be correlated with histological features of the original tissue.
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