RESULTS the keratinocytes implanted on the artificial dermis began to rupture and died after 2 to 3 days.
结果种植于人工真皮上的表皮细胞2 ~3天开始破裂、死亡。
The factors controlling the microstructure and properties of collagen based bioactive artificial dermis are reviewed.
综述了影响胶原基真皮再生支架微结构的各种因素及其控制方法。
Objective To build artificial dermis by using the acellular dermis matrix (ADM), collagen membrane and collagen gel as scaffolds.
目的探讨脱细胞基质、胶原蛋白基质网架、胶原凝胶的不同支架材料上构建人工真皮的可行性。
Objective To evaluate the effects of mixed grafting of vascular endothelial cells and fibroblasts on the angiogenesis of artificial dermis.
目的观察同种血管内皮细胞和成纤维细胞移植对人工真皮血管化的促进作用。
Conclusion: The complex cells, inoculated into artificial dermis, cultured 6 days in vitro, showed proper proliferation. Tissue engineering skins were constructed preliminary.
结论:复合法所得原代复合细胞接种于人工真皮,体外培养6天可大量增殖,初步获得组织工程皮肤。
Objective To evaluate the role of polylactic acid(PLA) in the formation of artificial dermis as the scaffold material and its significance in tissue engineering for artificial skin.
目的利用多孔聚乳酸海绵材料作为真皮支架材料,研究其在组织工程真皮构建中的作用及意义。
Objective To evaluate the role of polylactic acid(PLA) in the formation of artificial dermis as the scaffold material and its significance in tissue engineering for artificial skin.
目的利用多孔聚乳酸海绵材料作为真皮支架材料,研究其在组织工程真皮构建中的作用及意义。
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