Dental-derived Stem Cells in Tissue Engineering: The Role of Biomaterials and Host Response

Abstract

Abstract Dental-derived stem cells (DSCs) are attractive cell sources due to their easy access, superior growth capacity, and low immunogenicity. They can respond to multiple extracellular matrix (ECM) signals, which provide biophysical and biochemical cues to regulate the fate of residing cells. However, the direct transplantation of DSCs suffers from poor proliferation and differentiation towards functional cells and low survival rates due to local inflammation. Recently, elegant advances in the design of novel biomaterials have been made to give promise to the use of biomimetic biomaterials to regulate various cell behaviors, including proliferation, differentiation, and migration. Biomaterials could be tailored with multiple functionalities, e.g., stimuli-responsiveness. There is an emerging need to summarize recent advances in engineered biomaterials-mediated delivery and therapy of DSCs and their potential applications. Herein, we outlined the design of biomaterials for supporting DSCs and the host response to the transplantation.