一种新型的脱细胞组织工程血管支架的构建和评价

本研究的目的是制备一种免疫原性较小、生物相容性较好、力学性能优良的组织工程血管支架。新鲜获得的犬主动脉,置于三蒸水中4℃过夜，使血管细胞由于渗透压差较大而破裂；随后经过多聚环氧化合物家族的乙二醇缩水甘油醚（EX-810）的作用。进一步促进细胞破裂的同时。对血管支架的纤维结构起交联作用；最后应用物理超声的方法清除支架内的细胞碎片残留。用这种方法处理的犬主动脉内几乎没有可见的核染，基本消除了血管支架的免疫原性。同新鲜的血管相比较。这种组织工程血管支架的各种力学指标与新鲜的犬主动脉没有显著差异。说明处理后的支架仍然保持新鲜血管的力学特征。同时它还表现出极低的细胞毒性。分别在支架上种植内皮细胞和平滑肌细胞，扫描电镜检测结果表明，两种细胞在支架上生长良好，且局部已经融合成片。 相容性

Fabrication and Evaluation of a New Decellularized Tissue Engineered Blood Vessel Scaffold

The aim of this study was to fabricate an ideal nature-based tissue engineered blood vessel (TEBV) scaffold. It should have several special characteristics such as little immunogenicity and good biocompatibility, and it should be similar in mechanical property to fresh tissue. New-got canine aortas were dipped in ion-free water for 12 h under 4 degrees C to make the cells disrupted, then fixed in a kind of polyepoxy compounds solution (EX-810) for 72 h, and finally treated with sonication to remove the cell debris. Histological slices of the TEBV scaffold were stained with H&E. The results showed that our method could effectively remove the cells in fresh tissues because there was no visible nuclear stain. A series of biomechanical analyses revealed that these TEBV scaffold had nearly the same mechanical properties as fresh tissues. Also, these TEBV scaffolds showed good cell-compatibility, and their surfaces were suitable for endothelial cells and smooth muscle cells to grow on.