The limited self-repair capacity of cartilage due to its avascular and aneural nature leads to minimal regenerative ability. Autologous chondrocyte transplantation (ACT) is a popular treatment for cartilage defects but faces challenges due to chondrocyte dedifferentiation in later passages, which results in undesirable fibroblastic phenotypes. A promising treatment for cartilage injuries and diseases involves tissue engineering using cells (e.g., chondrocytes), scaffolds (e.g., Alginate Sulfate (AlgSulf)), and biochemical signals (e.g., Salidroside and TGF-β). This study focuses on investigating the effects of AlgSulf scaffolds with varying degrees of sulfation, Salidroside, and TGF-β on the proliferation, viability, and phenotype maintenance of chondrocytes. The findings demonstrate that AlgSulf films with a degree of sulfation (DS) = 2, treated with a combination of Salidroside and TGF-β, significantly enhanced chondrocyte proliferation ( < 0.001 and < 0.0001 in P2 and P4, respectively), preserved round cell morphology, and maintained cartilage-specific gene expression (Col2, Aggrecans, and SOX9) while downregulating fibroblastic markers (Col1, MMP13, IL-1β, and IL-6). Our findings suggest the potential of this combination for enhancing cartilage regeneration in tissue engineering applications.
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