Gelatin is a widely utilized bioprinting biomaterial due to its cell‐adhesive and enzymatically
cleavable properties, which improve cell adhesion and growth. Gelatin is often covalently …

Abstract 3D printing has experienced swift growth for biological applications in the field of
regenerative medicine and tissue engineering. Essential features of bioprinting include …

The favorable microstructure and bioactivity of tissue-engineered bone scaffolds are closely
associated with the regenerative efficacy of bone defects. For the treatment of large bone …

Abstract Three-dimensional (3D) bioprinting holds promise for precise repair of bone
defects, but rapid formation of effective vascularized tissue by 3D-printed construct is still a …

Bacterial cellulose (BC) possesses the desirable properties of biocompatibility, high
porosity, high surface area and noticeable mechanical strength as a scaffold in bone tissue …

The critical factor determining the in vivo effect of bone repair materials is the
microenvironment, which greatly depends on their abilities to promote vascularization and …

Regeneration the critical-sized bone defects remains a great challenge to clinical therapy
due to the inflammatory microenvironment and lack of stem cells in the region of the bone …

Biofragmentable anastomosis ring (BAR) is an ideal sutureless alternative for intestinal
connection that is frequently demanded in colonic surgery. However, it is challenging to …

Regenerative medicine has received potential attention around the globe, with improving
cell performances, one of the necessary ideas for the advancements of regenerative …

The incidence of tissue and organ damage caused by various diseases is increasing
worldwide. Tissue engineering is a promising strategy of tackling this problem because of its …