As a milestone in therapeutic fields, tissue engineering has offered an alternative strategy to
address unmet clinical needs for the repair and replacement of human damaged organs …

A transparent cornea is paramount for vision. Corneal opacity is one of the leading causes of
blindness. Although conventional corneal transplantation has been successful in recovering …

Chronic wounds are among the most therapeutically challenging conditions, which are
commonly followed by bacterial infection. The ideal approach to treat such injuries are …

Corneal blindness is the major cause of vision impairment and the fourth-largest leading
cause of blindness worldwide. An allograft corneal transplant is the most routine treatment …

The repair of large‐diameter corneal stroma defects is a major clinical problem. Although
some studies have attempted to use hydrogels to repair corneal damage, most of these …

Corneal injuries will cause corneal surface diseases that may lead to blindness in millions of
people worldwide. There is a tremendous need for biomaterials that can promote corneal …

Peripheral nerve injury is a critical condition that can disrupt nerve functions. Despite the
progress in engineering artificial nerve guidance conduits (NGCs), nerve regeneration …

Articular cartilage has weak intrinsic self-healing capacity. Tissue engineering is an
appropriate option for cartilage regeneration. This research was designed to evaluate the …

The lack of vascularization in the white-red and white zone of the meniscus causes these
zones of tissue to have low self-healing capacity in case of injury and accelerate …

Objective Meniscus injuries in the inner avascular zone have weak intrinsic self-healing
capacity and often progress to osteoarthritis. This study focused on evaluating the effects of …