Abstract
At present, the healing of osteopathy, especially the healing of cartilage, has been proven to be difficult. Commonly used treatment methods are autogenous bone grafts and allogeneic bone grafts, but grafts cannot fully meet the clinical treatment requirements due to problems related to the source, price, immunity, and other concerns. Thus, the combination of biomaterials and tissue engineering technology has become a new direction in research. Among studies on tissue engineering bone and cartilage materials, hydrogels that show biological activity, absorbability after degradability, plasticity, and easy preparation have become the focus. Hydrogels are used as extracellular matrix mimics. Although various materials are able to form hydrogels, hyaluronic acid and its derivatives are prominently used. Hyaluronic acid hydrogels have many advantages, such as promoting cell adhesion and proliferation and wound healing. They also demonstrate sufficient biological activity for stimulating a microenvironment for cell survival. However, their disadvantages require further modification and include a poor degradation rate and insufficient mechanical performance. In this paper, hyaluronic acid-based hydrogels, their modifications, applications, and mechanisms, as well as new techniques for processing hyaluronic acid hydrogels in bone and cartilage tissue engineering, are briefly reviewed, and their future prospects and directions for future work are discussed.
Highlights
Bone is a basic body structure that constitutes parts of the motor system and supports routine human activities
Synthetic polymers are under development and include polyethylene oxide (PEO), polyvinyl alcohol (PVA), polyacrylic acid, and polyacrylic-fumaricethylene glycol copolymer [8]. e biocompatibility of synthetic polymer hydrogels needs improvement. ere have been several in-depth studies of the natural polymer hyaluronic acid (HA) [9,10,11,12,13]
We review hydrogels composed of HA and their derivates in bone and cartilage tissue engineering, providing a reference for the future development of better hydrogels based on HA and its derivates
Summary
Bone is a basic body structure that constitutes parts of the motor system and supports routine human activities. Bone and cartilage tissue engineering materials consist of stem cells and biological materials; more research is needed [4, 5]. Bone and cartilage tissue engineering involves the use of cultures and in vitro amplification of autologous high-concentration osteoblasts, bone marrow stroma stem cells, or chondrocytes, which are implanted into a natural or synthetic cell scaffold or ECM that shows good biocompatibility (BC) and absorbability after degradation. E ideal scaffold materials for bone or cartilage tissue engineering include materials with a natural ecology, BC, the capability to seed osteoprogenitor cells (with the priority being mesenchymal stem cells (MSCs)), differentiation and proliferation capabilities, a natural ECM that can promote cell growth, morphogenesis signals, and adequate nutrition. Hydrogels are being studied in-depth and are expected to industrialize the production of BTE or CTE
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