Tissue-engineered decellularized extracellular matrix (ECM) scaffolds hold great potential to
address the donor shortage as well as immunologic rejection attributed to cells in …

Tissue engineering and regenerative medicine have shown potential in the repair and
regeneration of tissues and organs via the use of engineered biomaterials and scaffolds …

Decellularization of natural tissues to produce extracellular matrix is a promising method for
three-dimensional scaffolding and for understanding microenvironment of the tissue of …

Biomaterials play a core role in cartilage repair and regeneration. The success or failure of
an implanted biomaterial is largely dependent on host response following implantation. Host …

Biomaterials play a fundamental role in tissue engineering by providing biochemical and
physical cues that influence cellular fate and matrix development. Decellularized …

Cartilage injuries are common problems that increase with the population aging. Cartilage is
an avascular tissue with a relatively low level of cellular mitotic activity, which makes it …

Advances in vibrational spectroscopy have propelled new insights into the molecular
composition and structure of biological tissues. In this review, we discuss common …

The immune response of the host towards a decellularized scaffold is complex. Not only can
a number of immune cells influence this process, but also the characteristics, preparation …

Clinical medicine is encountering the challenge of repairing soft-tissue defects. Currently,
natural and synthetic materials have been developed as natural scaffolds. Among them, the …

Abstract Cartilage Decellularized ExtraCellular Matrix (dECM) materials have shown
promising cartilage regeneration capacity due to their chondrogenic bioactivity. However …