Litcius/Paper detail

Fabrication of biphasic cartilage-bone integrated scaffolds based on tissue-specific photo-crosslinkable acellular matrix hydrogels

Yujie Hua, Yingying Huo, Baoshuai Bai, Junxiang Hao, Guanhuai Hu, Zheng Ci, Xiaodi Wu, Mengyuan Yu, Xin Wang, Hong Chen, Wenjie Ren, Yixin Zhang, Xiaoyun Wang, Guangdong Zhou

2022Materials Today Bio41 citationsDOIOpen Access PDF

Abstract

The fabrication of biphasic cartilage-bone integrated scaffolds is an attractive alternative for osteochondral repair but has proven to be extremely challenging. Existing three-dimensional (3D) scaffolds are insufficient to accurately biomimic the biphasic cartilage-bone integrated microenvironment. Currently, photo-crosslinkable hydrogels based on tissue-specific decellularized extracellular matrix (dECM) have been considered as an important technique to fabricate biomimetic scaffolds, but so far there has been no breakthrough in the photo-crosslinkable hydrogel scaffolds with biphasic cartilage-bone biomimetic microenvironment. Here, we report a novel strategy for the preparation of biomimetic cartilage-bone integrated scaffolds based on photo-crosslinkable cartilage/bone-derived dECM hydrogels, which are able to reconstruct biphasic cartilage-bone biomimetic microenvironment. The biphasic cartilage-bone integrated scaffolds provided a 3D microenvironment for osteochondral regeneration. The cartilage biomimetic scaffolds, consisting of cartilage-derived dECM hydrogels, efficiently regulated chondrogenesis of bone marrow mesenchymal stem cells (BMSCs). The bone biomimetic scaffolds, composed of cartilage/bone-derived dECM hydrogels, first regulated chondrogenesis of BMSCs, followed by endochondral ossification over time. Taken together, the biphasic cartilage-bone integrated tissue could be successfully reconstructed by subcutaneous culture based on cartilage-bone bilayered structural design. Furthermore, the biphasic cartilage-bone biomimetic scaffolds (cell-free) achieved satisfactory cartilage-bone integrated regeneration in the osteochondral defects of rabbits' knee joints.

Topics & Concepts

CartilageSelf-healing hydrogelsChondrogenesisDecellularizationEndochondral ossificationBiomedical engineeringMaterials scienceExtracellular matrixRegeneration (biology)Tissue engineeringChemistryAnatomyCell biologyMedicineBiologyBiochemistryPolymer chemistryBone Tissue Engineering Materials3D Printing in Biomedical ResearchTissue Engineering and Regenerative Medicine