CRISPR-based genetically modified scaffold-free biomaterials for tissue engineering and regenerative medicine

Abstract

CRISPR-based genetically modified scaffold-free biomaterials, including extracellular vehicles, cell sheets, cell aggregates, organoids and organs, have attracted significant attention in the fields of regenerative medicine and tissue engineering in recent years. With a wide range of applications in gene therapy, modeling disease, tissue regeneration, organ xenotransplantation, modeling organogenesis as well as gene and drug screening, they are at a critical juncture from clinical trials to therapeutic applications. Xenografts have already been tested on non-human primates and humans. However, we have to admit that a series of obstacles still need to be addressed, such as immune response, viral infection, off-target effects, difficulty in mass production, and ethical issues. Therefore, future research should pay more attention to improving their safety, accuracy of gene editing, flexibility of production, and ethical rationality. This review summarizes various types of CRISPR-based genetically modified scaffold-free biomaterials, including their preparation procedures, applications, and possible improvements.