Zein Scaffolds for Bone-Cartilage Interface Regeneration 被引量：5

In vitro and In vivo Evaluation of the Developed PLGA/HAp/Zein Scaffolds for Bone-Cartilage Interface Regeneration

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摘要 Objective To investigate the effect of electronspun PLGA/HAp/Zein scaffolds on the repair of cartilage defects. Methods The PLGA/HAp/Zein composite scaffolds were fabricated by electrospinning method. The physiochemical properties and biocompatibility of the scaffolds were separately characterized by scanning electron microscope （SEM）, transmission electron microscope （TEM）, and fourier transform infrared spectroscopy （FTIR）, human umbilical cord mesenchymal stem cells （hUC-MSCs） culture and animal experiments. Results The prepared PLGA/HAp/Zein scaffolds showed fibrous structure with homogenous distribution, hUC-MSCs could attach to and grow well on PLGA/HAp/Zein scaffolds, and there was no significant difference between cell proliferation on scaffolds and that without scaffolds （P〉0.05）. The PLGA/HAp/Zein scaffolds possessed excellent ability to promote in vivo cartilage formation. Moreover, there was a large amount of immature chondrocytes and matrix with cartilage lacuna on PLGA/HAp/Zein scaffolds. Conclusion The data suggest that the PLGA/HAp/Zein scaffolds possess good biocompatibility, which are anticipated to be potentially applied in cartilage tissue engineering and reconstruction. Objective To investigate the effect of electronspun PLGA/HAp/Zein scaffolds on the repair of cartilage defects. Methods The PLGA/HAp/Zein composite scaffolds were fabricated by electrospinning method. The physiochemical properties and biocompatibility of the scaffolds were separately characterized by scanning electron microscope （SEM）, transmission electron microscope （TEM）, and fourier transform infrared spectroscopy （FTIR）, human umbilical cord mesenchymal stem cells （hUC-MSCs） culture and animal experiments. Results The prepared PLGA/HAp/Zein scaffolds showed fibrous structure with homogenous distribution, hUC-MSCs could attach to and grow well on PLGA/HAp/Zein scaffolds, and there was no significant difference between cell proliferation on scaffolds and that without scaffolds （P〉0.05）. The PLGA/HAp/Zein scaffolds possessed excellent ability to promote in vivo cartilage formation. Moreover, there was a large amount of immature chondrocytes and matrix with cartilage lacuna on PLGA/HAp/Zein scaffolds. Conclusion The data suggest that the PLGA/HAp/Zein scaffolds possess good biocompatibility, which are anticipated to be potentially applied in cartilage tissue engineering and reconstruction.

作者 LIN Yong Xin DING Zhi Yong ZHOU Xiao Bin LI Si Tao XIE De Ming LI Zhi Zhong SUN Guo Dong

机构地区 Department of Orthopedics Department of Traumatology Department of Pediatrics Department of Biomedical Engineering

出处《Biomedical and Environmental Sciences》 SCIE CAS CSCD 2015年第1期1-12,共12页 生物医学与环境科学（英文版）

基金 financially supported by the National Natural Science Foundation of China,No.31070862 Science and Technology Plan of Guangzhou,No.12C32071662 Research Foundation of Guangdong Provincial Bureau of Traditional Chinese Medicine,No.2013113 scientific research and cultivating Foundation of the First Clinical Medical College of Jinan University,No.2012103 and No.2013208

关键词 hUC-MSCs ELECTROSPUN PLGA/HAp/Zein grafts Cartilage tissue engineering CHONDROCYTE hUC-MSCs Electrospun PLGA/HAp/Zein grafts Cartilage tissue engineering Chondrocyte

分类号 R318.08 [医药卫生—生物医学工程]

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In vitro and In vivo Evaluation of the Developed PLGA/HAp/Zein Scaffolds for Bone-Cartilage Interface Regeneration 被引量：5

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