Numerous surgical procedures are daily performed worldwide to replace and repair
damaged tissue. Tissue engineering is the field devoted to the regeneration of damaged …

Decellularized extracellular matrix (dECM) is widely used in regenerative medicine as a
scaffold material due to its unique biological activity and good biocompatibility. Hydrogel is a …

Hydrogels are polymeric three-dimensional network structures with high water content. Due
to their superior biocompatibility and low toxicity, hydrogels play a significant role in the …

Brain lesions can arise from traumatic brain injury, infection, and craniotomy. Although
injectable hydrogels show promise for promoting healing of lesions and health of …

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

Due to their particular water absorption capacity, hydrogels are the most widely used
scaffolds in biomedical studies to regenerate damaged tissue. Hydrogels can be used in …

Spinal cord injury (SCI) often causes severe functional impairment of body, which leads to a
huge burden to the patient and the whole society. Many strategies, especially biomaterials …

Brain tissues that are severely damaged by traumatic brain injury (TBI) is hardly
regenerated, which leads to a cavity or a repair with glial scarring. Stem-cell therapy is one …

A promising paradigm to regenerative medicine involves the application of biomaterials,
which makes a spurt of progress in the past 20 years. Of various biomaterials, decellularized …

Severe ischemic stroke damages neuronal tissue, forming irregular-shaped stroke cavities
devoid of supporting structure. Implanting biomaterials to provide structural and functional …