Repair of Osteochondral Defect with Acellular Cartilage Matrix and Thermosensitive Hydrogel Scaffold.

Abstract

In the present study, acellular cartilage matrix (ACM) was modified with poly-l-lysine/hyaluronic acid (PLL/HA) multilayers via detergent-enzyme chemical digestion and layer-by-layer self-assembly technology. This modified ACM was then loaded with Transforming Growth Factor Beta 3 (TGF-β3) and incorporated into a thermosensitive hydrogel (TH) to create a HA/PLL-ACM/TH composite scaffold with sustained-release function. This study aimed to evaluate the efficacy of this novel composite scaffold in promoting chondrogenic differentiation of bone marrow mesenchymal stem cells (BMSCs) and facilitating osteochondral defect repair. In vitro, isolated, and cultured rat BMSCs were inoculated in equal amounts into TH, ACM/TH, and HA/PLL-ACM/TH groups, with or without TGF-β3 supplementation, for 21 days. Western blot (WB) analysis and immunofluorescence staining were employed to assess the expression levels of collagen II, aggrecan, and SOX-9. In vivo, osteochondral defect was created in the Sprague-Dawley rat trochlea using microdrilling. TH, ACM/TH, and HA/PLL-ACM/TH scaffolds, with or without TGF-β3, were implanted into the defect. After 6 weeks, the repairs were evaluated macroscopically, using Micro computed tomography (micro-CT), histological analysis, and immunohistochemistry. The results demonstrated that the HA/PLL-ACM/TH scaffold loaded with TGF-β3 significantly upregulated the expression of collagen II, aggrecan, and SOX-9 compared with the control and other experimental groups. Furthermore, at 6 weeks postsurgery, the HA/PLL-ACM/TH group loaded with TGF-β3 exhibited superior tissue formation on the joint surface, as confirmed by micro-CT and histological evidence, indicating improved osteochondral repair. These findings suggest that the HA/PLL-ACM/TH scaffold loaded with TGF-β3 holds promise as a therapeutic strategy for osteochondral defect and offers a novel approach for utilizing acellular cartilage microfilaments.