Comparative Study of Two Decellularization Protocols on a Biomaterial for Tissue Engineering

Journal of Clinical and Experimental Cardiology Pub Date : 2017-05-25 DOI:10.4172/2155-9880.1000523

S. Sajith

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引用次数: 5

Abstract

Cardiovascular disease is a major health risk since past decade. Surgical treatment for major heart diseases has been one of the major challenges since years. Cardiac valves are synthetic or bio prosthetic ones. Mechanical valves are long durable but highly thrombogenic and undergo calcification at higher rates demanding permanent anticoagulation, which increases the risk of bleeding. Biomaterial scaffolds are used in surgical replacements but only after decellularization and processing. Decellularization makes tissue less antigenic; reduce inflammatory response and less tissue degeneration. In this work two decellularization protocols are tried on bovine pericardium (BP) to find out the effect of each of them on the scaffold's integrity. BP undergone protocol 1(0.25% Trypsin-EDTA, TritonX-100, Deoxycholic acid, Peracetic acid/Ethanol) treatment was seen to have highly distorted and damaged collagen matrix. Decellularization with protocol 2 (Deoxycholic acid, DNase, RNase, Ethanol) resulted in a completely decellularised bovine pericardium. The extracellular matrix was intact as native one with collagen bundles. This will help cell attachment to the decellularised matrix.

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组织工程生物材料两种脱细胞方案的比较研究

近十年来，心血管疾病是一个主要的健康风险。多年来，主要心脏病的手术治疗一直是主要挑战之一。心脏瓣膜是人工合成或生物假体。机械瓣膜经久耐用，但极易形成血栓，并且需要永久性抗凝治疗，这增加了出血的风险。生物材料支架用于外科手术置换，但必须经过脱细胞和处理。脱细胞使组织抗原性降低;减少炎症反应，减少组织变性。本文在牛心包(BP)上试验了两种脱细胞方案，以了解每种脱细胞方案对支架完整性的影响。BP经过方案1(0.25%胰蛋白酶- edta, TritonX-100，脱氧胆酸，过氧乙酸/乙醇)治疗，胶原基质高度扭曲和受损。方案2(脱氧胆酸，脱氧核糖核酸酶，核糖核酸酶，乙醇)脱细胞导致牛心包完全脱细胞。细胞外基质与天然基质一样完整，有胶原束。这将有助于细胞附着到去细胞化的基质上。

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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Journal of Clinical and Experimental Cardiology

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