Gelatin-methacrylate microspheres loaded with tendon-derived stem cells facilitate tendinopathy healing

IF 7.6 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials & Design Pub Date : 2024-07-17 DOI:10.1016/j.matdes.2024.113169

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Abstract

Tendon injuries are very common in orthopedic practice and can lead to constant pain, disability, and huge financial burden on society. Gelatin methacrylate (GelMA) and tendon-derived stem cells (TDSCs) may be helpful for the treatment of chronic micro-injury disease of the tendons. In vitro, GelMA microspheres were physically evaluated and assessed for their biological effects on TDSCs, including adhesion, proliferation, and ability to differentiate into tendons, and were also analyzed by sequencing at the RNA level and validated for relevant signaling pathways. A rat Achilles tendon microinjury model was used to evaluate the effect of GelMA microspheres combined with TDSCs on tendon repair. GelMA microspheres promoted adhesion, proliferation, and early tendinous differentiation of TDSCs. TDSCs were able to secrete large amounts of extracellular matrix and activate RAS/ERK signaling in the GelMA microenvironment. In vivo, injection of TDSCs-loaded GelMA microspheres promoted repair of Achilles tendon microinjury. GelMA microspheres and TDSCs synergistically promote Achilles tendon regeneration with the involvement of the RAS/ERK signaling pathway.

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载入肌腱衍生干细胞的明胶-甲基丙烯酸酯微球促进肌腱病愈合

肌腱损伤在骨科临床中非常常见，可导致持续疼痛、残疾，并给社会带来巨大的经济负担。甲基丙烯酸明胶（GelMA）和肌腱衍生干细胞（TDSCs）可能有助于治疗慢性肌腱微损伤疾病。在体外，对GelMA微球进行了物理评估，并评估了其对TDSCs的生物效应，包括粘附、增殖和分化为肌腱的能力，还通过RNA水平测序进行了分析，并验证了相关信号通路。大鼠跟腱微损伤模型用于评估 GelMA 微球与 TDSCs 结合对肌腱修复的影响。GelMA 微球促进了 TDSCs 的粘附、增殖和早期肌腱分化。TDSCs能在GelMA微环境中分泌大量细胞外基质并激活RAS/ERK信号。在体内，注射TDSCs负载的GelMA微球可促进跟腱微损伤的修复。在RAS/ERK信号通路的参与下，GelMA微球和TDSCs能协同促进跟腱再生。

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来源期刊

Materials & Design Engineering-Mechanical Engineering

CiteScore

14.30

自引率

7.10%

发文量

1028

审稿时长

85 days

期刊介绍： Materials and Design is a multi-disciplinary journal that publishes original research reports, review articles, and express communications. The journal focuses on studying the structure and properties of inorganic and organic materials, advancements in synthesis, processing, characterization, and testing, the design of materials and engineering systems, and their applications in technology. It aims to bring together various aspects of materials science, engineering, physics, and chemistry. The journal explores themes ranging from materials to design and aims to reveal the connections between natural and artificial materials, as well as experiment and modeling. Manuscripts submitted to Materials and Design should contain elements of discovery and surprise, as they often contribute new insights into the architecture and function of matter.