Decellularized Cartilage May Be a Chondroinductive Material for Osteochondral Tissue Engineering

Abstract: Extracellular matrix (ECM)-based materials are attractive for regenerative medicine in their ability to potentially aid in stem cell recruitment, infiltration, and differentiation without added biological factors. In musculoskeletal tissue engineering, demineralized bone matrix is widely used, but recently cartilage matrix has been attracting attention as a potentially chondroinductive material. The aim of this study was thus to establish a chemical decellularization method for use with articular cartilage to … Show more

“…1A-C). In prior work, it was established that no significant reduction in biochemical content was observed between native cartilage and cartilage that was cryoground, 17 so the prior mentioned reductions are in reference to DVC powder.…”

“…17 In the pellet culture study, we observed that rat bone marrow stem cells (rBMSCs) exposed to DCC outperformed those cells exposed to DVC or transforming growth factorb 3 (TGF-b 3 ) in chondroinductivity. 17 However, gene expression was only observed over a period of 7 days and was only monitored for cells in pellet culture and not within a 3D scaffold.…”

“…We and other groups have already established that cartilage matrix has chondroinductive potential, 7,[13][14][15][16][17] and we recently were the first to compare the chondroinductive potential of two different types of cartilage matrix in pellet culture: devitalized cartilage (DVC), where the matrix was exposed to a freeze/thaw process to devitalize the living chondrocytes within the matrix, and decellularized cartilage (DCC), in which the cells were not only devitalized but also removed from the matrix entirely. 17 In the pellet culture study, we observed that rat bone marrow stem cells (rBMSCs) exposed to DCC outperformed those cells exposed to DVC or transforming growth factorb 3 (TGF-b 3 ) in chondroinductivity.…”

“…Our group was the first to explore the short-term chondrogenic potential of DCC versus DVC. 17 However, for the first time in this study, not only were DVC and DCC compared for their longterm chondrogenic potential, but they were also evaluated for their ability to exhibit a yield stress in hydrogel precursor solutions. In this study, chondrogenesis was induced through incorporating native cartilage ECM into the MeHA/cartilage matrix gel networks, which furthermore resulted in the pastelike behavior and yield stress that was observed before crosslinking.…”

Chondroinduction from Naturally Derived Cartilage Matrix: A Comparison Between Devitalized and Decellularized Cartilage Encapsulated in Hydrogel Pastes

“…1A-C). In prior work, it was established that no significant reduction in biochemical content was observed between native cartilage and cartilage that was cryoground, 17 so the prior mentioned reductions are in reference to DVC powder.…”

“…17 In the pellet culture study, we observed that rat bone marrow stem cells (rBMSCs) exposed to DCC outperformed those cells exposed to DVC or transforming growth factorb 3 (TGF-b 3 ) in chondroinductivity. 17 However, gene expression was only observed over a period of 7 days and was only monitored for cells in pellet culture and not within a 3D scaffold.…”

“…We and other groups have already established that cartilage matrix has chondroinductive potential, 7,[13][14][15][16][17] and we recently were the first to compare the chondroinductive potential of two different types of cartilage matrix in pellet culture: devitalized cartilage (DVC), where the matrix was exposed to a freeze/thaw process to devitalize the living chondrocytes within the matrix, and decellularized cartilage (DCC), in which the cells were not only devitalized but also removed from the matrix entirely. 17 In the pellet culture study, we observed that rat bone marrow stem cells (rBMSCs) exposed to DCC outperformed those cells exposed to DVC or transforming growth factorb 3 (TGF-b 3 ) in chondroinductivity.…”

“…Our group was the first to explore the short-term chondrogenic potential of DCC versus DVC. 17 However, for the first time in this study, not only were DVC and DCC compared for their longterm chondrogenic potential, but they were also evaluated for their ability to exhibit a yield stress in hydrogel precursor solutions. In this study, chondrogenesis was induced through incorporating native cartilage ECM into the MeHA/cartilage matrix gel networks, which furthermore resulted in the pastelike behavior and yield stress that was observed before crosslinking.…”

Chondroinduction from Naturally Derived Cartilage Matrix: A Comparison Between Devitalized and Decellularized Cartilage Encapsulated in Hydrogel Pastes

“…The nanotubes Can affect the cells and the cell morphology alter through the nanostructured surface. thus CNT-based surfaces provide a very good scaffold that can be used to stimulate the formation of cartilage tissue (Sutherland et al 2015 andTrzeciak et al 2016). We tried to keep natural structure of decellularized cartilage intact and put it close to nanotubes in such an environment.…”

Decellularized Bovine Articular Cartilage Matrix Reinforced by Carboxylated-SWCNT for Tissue Engineering Application

Elastin‐Like Recombinamers: Deconstructing and Recapitulating the Functionality of Extracellular Matrix Proteins Using Recombinant Protein Polymers