Genipin cross-linked decellularized scaffold for allogenic transplantation in situ

Wenlong Yang, S. Zhang, Guozhong Zhang, Yuanfan Xiao
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Abstract

Objective To explored the bio-compatibility and cartilage regeneration of the rabbits genipin cross-linked decellularized scaffold, to provide experimental and theoretical support for the clinical application of genipin cross-linked decellularized scaffold. Methods Detergent-enzyme method was used to prepare decellularized tracheal scaffolds. Cellular content of native trachea and decellularized trachea were compared by 4′, 6-diamidino-2-phenylindole(DAPI) staining. Masson trichrome staining was used to compare the histological structure of the progenitor tube, decellularized trachea, and genipin cross-linked decellularized trachea. Nine adult New Zealand white rabbits were randomly divided into autologous tracheal transplantation group (negative control group), allogeneic tracheal transplantation group (positive control group), and genipin cross-linked decellularized tracheal transplantation group (experimental group). Autologous bone marrow mesenchymal stem cells were implanted on the surface of trachea in each group. The blood cells and type II collagen were detected to compare the inflammatory response and chondrocyte regeneration after tracheal orthotopic transplantation in the three groups. Results After DAPI staining and light microscope observation (×200), the cell content of the acellular 7-cycle trachea [(143.0 ± 71.1) cells/field] was significantly lower than that of the native trachea [(853.5 ± 149.6) cells/field], and the difference was statistically significant (P<0.001). Masson′s trichrome staining showed that the tissue structure of genipin cross-linked decellularized trachea was more complete. Blood cell analysis and type II collagen test results showed that genipin cross-linked decellularized trachea transplanted with bone marrow mesenchymal stem cells after transplantation in situ has little rejection and can be converted into chondrocytes by the action of related growth factors in vivo. Conclusions Genipin cross-linked decellularized tracheal scaffold combined with stem cell transplantation can successfully construct a tracheal in situ replacement model. This study provides a strong support for the research of tissue engineering trachea. Key words: Tissue engineering; Trachea; Transplantation; Genipin cross-linked; Mesenchymal stem cells
Genipin交联脱细胞支架原位同种异体移植
目的探讨兔格尼平交联脱细胞支架的生物相容性和软骨再生情况,为格尼平交联脱细胞支架的临床应用提供实验和理论支持。方法采用洗涤酶法制备脱细胞气管支架。采用4′,6-二氨基-2-苯基吲哚(DAPI)染色法比较天然气管和脱细胞气管的细胞含量。马松三色染色法比较祖管、脱细胞气管和格尼平交联脱细胞气管的组织学结构。将9只成年新西兰大白兔随机分为自体气管移植组(阴性对照组)、异体气管移植组(阳性对照组)和格尼平交联脱细胞气管移植组(实验组)。各组气管表面均植入自体骨髓间充质干细胞。检测三组患者的血细胞和II型胶原,比较三组患者气管原位移植后的炎症反应和软骨细胞再生情况。结果经DAPI染色及光镜观察(×200),脱细胞7周期气管的细胞含量[(143.0±71.1)个细胞/场]显著低于天然气管[(853.5±149.6)个细胞/场],差异有统计学意义(P<0.001)。马松三色染色显示,吉尼平交联脱细胞气管组织结构更完整。血细胞分析和II型胶原蛋白检测结果表明,格尼平交联脱细胞气管移植骨髓间充质干细胞原位移植后排斥反应小,在体内可通过相关生长因子的作用转化为软骨细胞。结论吉尼平交联脱细胞气管支架联合干细胞移植可成功构建气管原位置换模型。本研究为组织工程气管的研究提供了有力的支持。关键词:组织工程;气管;移植;Genipin交联;间充质干细胞
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