Preparation and biomechanical property of genipin-crosslinked rat acellular spinal cord scaffolds
10.3760/cma.j.issn.1001-8050.2014.02.023
- VernacularTitle:京尼平交联大鼠脱细胞脊髓支架的制备及其生物力学特性研究
- Author:
Tao JIANG
;
Xianjun REN
;
Hong YIN
;
Kaijian WANG
;
Changli ZHOU
;
Yongyang TIAN
- Publication Type:Journal Article
- Keywords:
Tissue scaffold;
Biomechanics;
Acellular spinal cord
- From:
Chinese Journal of Trauma
2014;30(2):180-184
- CountryChina
- Language:Chinese
-
Abstract:
Objective To construct genipin-crosslinked rat acellular spinal cord scaffolds and evaluate their enzymatic degradation rate,biomechanical properties and cytotoxicity.Methods Rat spinal cord scaffolds were decellularized by chemical extraction and chemically crosslinked with 5 g/L genipin solution.Micro-structure of the uncrosslinked and genipin-crosslinked acellular spinal cord scaffolds were observed by HE staining and scanning electron microscopy and properties of pore size,porosity,water ratio,and degradation rate in 2.5 g/L trypsin enzyme solution were examined.Ultimate tensile strength and elastic modulus of normal rat thoracic spinal cord,uncrosslinked and genipin-crosslinked acellular spinal cord scaffolds were determined on Instron mechanical testing instrument.Rat bone marrow mesenchymal stem cells were cultured in lixivium of uncrosslinked and genipin-crosslinked acellular spinal cord scaffolds and MTT assay for relative cell growth rate was test to evaluate the cytotoxicity of scaffolds.Results The uncrosslinked and the genipin-crosslinked acellular spinal cord scaffolds possessed a similar three-dimensional mesh-porous structure with a mean pore diameter about 30 μm and a porosity over 80%,but there was a statistical difference between the two groups(P > 0.05).Water ratio of genipincrosslinked scaffolds was (229.7 ± 12.5) %,far lower than (283.4 ± 11.2) % of uncrosslinked scaffolds (P < O.05) ; genipin-crosslinked acellular spinal cord scaffolds had lower weight loss at each time point than the uncrosslinked acellular spinal cord scaffolds (P < 0.05),but the stability in trypsin,ultimate tensile strength and elastic modulus of acellular spinal cord scaffolds were significantly enhanced by genipin-crosslinking (P < 0.05).Furthermore,no obvious cytotoxicity was observed in the uncroslinked and genipin-crosslinked scaffolds.Conclusions Rat acellular spinal cord scaffolds present no obvious change in structure after genipin-crosslinking,but there is significant improvement in the biomechanical properties and ability against enzymatic degradation and no marked cytotoxicity.Hence,the genipincrosslinked scaffolds are promising in tissue engineering for spinal injury.
