Tissue Engineering of Canine Cartilage from Surgically Debrided Osteochondritis Dissecans Fragments

Abstract: This study in dogs explored the feasibility of using cartilage fragments removed and discarded during routine palliative surgery for osteochondritis dissecans (OCD) as a source of primary chondrocytes for scaffold-free cartilage tissue-engineering. Primary chondrocytes were obtained from three OCD donors and one age-matched healthy articular cartilage (HAC) donor. After monolayer expansion of primary cells, a three-dimensional spherical suspension culture was implemented. Following this stage, cells were seede… Show more

“…Generally, self-assembly depends on high cell density and is mainly mediated by N-cadherin that results in cell binding ( Lee et al, 2017 ). Custom-made agarose molds that allowed for size and shape-specific constructs were utilized to self-assemble chondrocytes at high density after three-dimensional spherical suspension culture in a scaffold-free environment ( Vapniarsky et al, 2022 ). Moreover, with biochemical stimuli (TGFb-1, C-ABC, LOX-L2) and mechanical stimulation, the biomechanical properties of the self-assembled neocartilages were improved ( Vapniarsky et al, 2022 ).…”

Novel advances in strategies and applications of artificial articular cartilage

“…Generally, self-assembly depends on high cell density and is mainly mediated by N-cadherin that results in cell binding ( Lee et al, 2017 ). Custom-made agarose molds that allowed for size and shape-specific constructs were utilized to self-assemble chondrocytes at high density after three-dimensional spherical suspension culture in a scaffold-free environment ( Vapniarsky et al, 2022 ). Moreover, with biochemical stimuli (TGFb-1, C-ABC, LOX-L2) and mechanical stimulation, the biomechanical properties of the self-assembled neocartilages were improved ( Vapniarsky et al, 2022 ).…”

Novel advances in strategies and applications of artificial articular cartilage

Recent advancements in cartilage tissue engineering innovation and translation

Auricular Chondrocytes as a Cell Source for Scaffold-Free Elastic Cartilage Tissue Engineering