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 development, wound healing, pathogenesis, regeneration, and homeostasis rely
upon coordinated and dynamic spatial and temporal remodeling of extracellular matrix …

Cardiovascular diseases are the leading cause of global mortality. Over the past two
decades, researchers have tried to provide novel solutions for end-stage heart failure to …

As an emerging 3D printing technology, 3D bioprinting has shown great potential in tissue
engineering and regenerative medicine. Decellularized extracellular matrices (dECM) have …

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

Fish skin grafting as a new skin substitute is currently being used in clinical applications.
Acceleration of the wound healing, lack of disease transmission, and low cost of the …

The process of tissue regeneration requires the utilization of a scaffold, which serves as a
structural framework facilitating cellular adhesion, proliferation, and migration within a …

In recent years, three-dimensional (3D) bioprinting has been widely utilized as a novel
manufacturing technique by more and more researchers to construct various tissue …

In the field of tissue engineering and regenerative medicine, various hydrogels derived from
the extracellular matrix have been utilized for creating engineered tissues and implantable …

Among advanced therapy medicinal products, tissue-engineered products have the
potential to address the current critical shortage of donor organs and provide future …