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Literature DB >> 32006743

Decellularized tissue engineered hyaline cartilage graft for articular cartilage repair.

Xiaolei Nie¹, Yon Jin Chuah¹, Wenzhen Zhu¹, Pengfei He¹, Yvonne Peck¹, Dong-An Wang².

Abstract

Articular cartilage repair has been a long-standing challenge in orthopaedic medicine due to the limited self-regenerative capability of cartilage tissue. Currently, cartilage lesions are often treated by microfracture or autologous chondrocyte implantation (ACI). However, these treatments are frequently reported to result in a mixture of the desired hyaline cartilage and mechanically inferior fibrocartilage. In this study, by combining the advantages of cartilage tissue engineering and decellularization technology, we developed a decellularized allogeneic hyaline cartilage graft, named dLhCG, which achieved superior efficacy in articular cartilage repair and surpassed living autologous chondrocyte-based cartilaginous engraftment and ACI. By the 6-month time point after implantation in porcine knee joints, the fine morphology, composition, phenotype, microstructure and mechanical properties of the regenerated hyaline-like cartilaginous neo-tissue have been demonstrated via histology, biochemical assays, DNA microarrays and mechanical tests. The articular cartilaginous engraftment with allogeneic dLhCG was indicated to be well consistent, compatible and integrated with the native cartilage of the host. The successful repair of articular chondral defects in large animal models suggests the readiness of allogeneic dLhCG for clinical trials.

Entities: Disease

Keywords: Cartilage; Decellularization; Large animal model; Pre-clinical; Scaffold-free; Tissue engineering

Mesh：

Year: 2020 PMID： 32006743 DOI： 10.1016/j.biomaterials.2020.119821

Source DB: PubMed Journal: Biomaterials ISSN： 0142-9612 Impact factor: 12.479

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Cited

11 in total

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5. Biofunctionalized Structure and Ingredient Mimicking Scaffolds Achieving Recruitment and Chondrogenesis for Staged Cartilage Regeneration.

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Review 8. Tissue-Specific Decellularization Methods: Rationale and Strategies to Achieve Regenerative Compounds.

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Review 9. New Insights into Cartilage Tissue Engineering: Improvement of Tissue-Scaffold Integration to Enhance Cartilage Regeneration.

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10. Porcine fibrin sealant combined with autologous chondrocytes successfully promotes full-thickness cartilage regeneration in a rabbit model.

Authors: Yu Yang; Xin Wang; Kangkang Zha; Zhuang Tian; Shuyun Liu; Xiang Sui; Zhigang Wang; Jilian Zheng; Jun Wang; Xiaobin Tian; Quanyi Guo; Jinmin Zhao
Journal: J Tissue Eng Regen Med Date: 2021-06-04 Impact factor: 3.963