Successful regeneration of weight‐bearing bone defects and critical‐sized cartilage defects
remains a major challenge in clinical orthopedics. In the past decades, biodegradable …

A variety of engineered scaffolds have been created for tissue engineering using polymers,
ceramics and their composites. Biomimicry has been adopted for majority of the three …

The central nervous system (CNS) encompasses the brain and spinal cord and is
considered the processing center and the most vital part of human body. The central …

Polymer scaffolds constitute a very interesting strategy for tissue engineering. Even though
they are generally non-toxic, in some cases, they may not provide suitable support for cell …

Cardiovascular diseases (CVDs) account for the 31% of total death per year, making them
the first cause of death in the world. Atherosclerosis is at the root of the most life-threatening …

Effective vascularization is crucial for three-dimensional (3D) printed hydrogel-cell
constructs to efficiently supply cells with oxygen and nutrients. Till date, several hydrogel …

Insufficient vascularization during tissue repair is often associated with poor clinical
outcomes. This is a concern especially when patients have critical‐sized injuries, where the …

The fabrication of biomimetic tracheas with a architecture of cartilaginous rings alternately
interspersed between vascularized fibrous tissue (CRVFT) has the potential to perfectly …

Collagen is widely used in tissue engineering because it can be extracted in large
quantities, and has excellent biocompatibility, good biodegradability, and weak antigenicity …

Biodegradable and Bioresorbable materials, either for passive implants or wearable and
active implantable devices, added a new dimension to healthcare research due to their low …