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首页> 美国卫生研究院文献>Cells >Trends in Articular Cartilage Tissue Engineering: 3D Mesenchymal Stem Cell Sheets as Candidates for Engineered Hyaline-Like Cartilage
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Trends in Articular Cartilage Tissue Engineering: 3D Mesenchymal Stem Cell Sheets as Candidates for Engineered Hyaline-Like Cartilage

机译:关节软骨组织工程中的趋势:3D间充质干细胞片作为工程透明的软骨的候选者

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摘要

Articular cartilage defects represent an inciting factor for future osteoarthritis (OA) and degenerative joint disease progression. Despite multiple clinically available therapies that succeed in providing short term pain reduction and restoration of limited mobility, current treatments do not reliably regenerate native hyaline cartilage or halt cartilage degeneration at these defect sites. Novel therapeutics aimed at addressing limitations of current clinical cartilage regeneration therapies increasingly focus on allogeneic cells, specifically mesenchymal stem cells (MSCs), as potent, banked, and available cell sources that express chondrogenic lineage commitment capabilities. Innovative tissue engineering approaches employing allogeneic MSCs aim to develop three-dimensional (3D), chondrogenically differentiated constructs for direct and immediate replacement of hyaline cartilage, improve local site tissue integration, and optimize treatment outcomes. Among emerging tissue engineering technologies, advancements in cell sheet tissue engineering offer promising capabilities for achieving both in vitro hyaline-like differentiation and effective transplantation, based on controlled 3D cellular interactions and retained cellular adhesion molecules. This review focuses on 3D MSC-based tissue engineering approaches for fabricating “ready-to-use” hyaline-like cartilage constructs for future rapid in vivo regenerative cartilage therapies. We highlight current approaches and future directions regarding development of MSC-derived cartilage therapies, emphasizing cell sheet tissue engineering, with specific focus on regulating 3D cellular interactions for controlled chondrogenic differentiation and post-differentiation transplantation capabilities.
机译:关节软骨缺陷代表未来骨关节炎(OA)和退行性关节疾病进展的煽动因素。尽管有多种临床可用的疗法,但成功提供短期疼痛降低和恢复有限的迁移率,目前的治疗在这些缺陷位点处不可靠地再生原生透明软骨或停止软骨变性。旨在解决目前临床软骨再生疗法的局限性的新型治疗剂越来越关注同种异体细胞,特别是间充质干细胞(MSC),作为表达软骨内谱系承诺能力的有效,银行和可用的细胞来源。采用同种异体MSCs的创新组织工程方法旨在开发三维(3D),软弱化分化构建体,用于直接替代透明软骨,改善局部位点组织集成,并优化治疗结果。在新兴组织工程技术中,细胞片组织工程的进步提供了基于受控3D细胞相互作用和保留的细胞粘附分子实现体外透明化的分化和有效移植的有希望的能力。本综述重点介绍基于3D MSC的组织工程方法,用于制造“即用”透明的软骨构建体,以便在体内再生软骨疗法中快速快速。我们突出了关于MSC衍生的软骨疗法的发展的当前方法和未来方向,强调细胞片组织工程,特别关注调节3D细胞相互作用以进行受控的软骨生分化和后分化后移植能力。

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