利用细胞外冷冻保护剂通过冻融循环生产器官细胞外基质。

Production of organ extracellular matrix using a freeze-thaw cycle employing extracellular cryoprotectants.

作者信息

Shevtsov A, Leybovich B, Artyuhov I, Maleev Y, Peregudov A

机构信息

Institute of Biology of Aging LLC, Moscow, Russia.

Department of Operative Surgery and Clinical Anatomy, Burdenko Voronezh State Medical Academy, Voronezh, Russia.

出版信息

Cryo Letters. 2014 Sep-Oct;35(5):400-6.

PMID:25397955

Abstract

Biologic scaffold materials composed of the extracellular matrix (ECM) are typically derived by processes that involve decellularization of tissues or organs. All decellularization methods result in the ECM architecture disruption and a potential loss of surface structure and composition. Freeze-thaw processing effectively lyses cells and permits to diminish amounts of chemical lysing agents henceforth. However, it also causes certain disruptions of the ECM ultrastructure. In order to diminish these adverse effects we suggested using extracellular cryoprotectants (namely 5 % trehalose) to preserve the ECM molecular network without impeding the cell lysis. The original optimization of the perfusion-mediated decellularization method to comprise the single freeze-thaw processing cycle and subsequent perfusion with chemical agents' solution is presented here.

摘要

由细胞外基质（ECM）组成的生物支架材料通常通过涉及组织或器官去细胞化的过程获得。所有去细胞化方法都会导致ECM结构破坏以及表面结构和组成的潜在损失。冻融处理有效地裂解细胞，并允许减少此后化学裂解剂的用量。然而，它也会导致ECM超微结构的某些破坏。为了减少这些不利影响，我们建议使用细胞外冷冻保护剂（即5%海藻糖）来保存ECM分子网络，同时不妨碍细胞裂解。本文介绍了灌注介导的去细胞化方法的原始优化，该方法包括单个冻融处理周期以及随后用化学试剂溶液进行灌注。

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利用细胞外冷冻保护剂通过冻融循环生产器官细胞外基质。

Production of organ extracellular matrix using a freeze-thaw cycle employing extracellular cryoprotectants.

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