While the soft mechanics and tunable cell interactions facilitated by hydrogels have attracted
significant interest in the development of functional hydrogel-based tissue engineering …

With the advancement in 3D bioprinting technology, cell culture methods can design 3D
environments which are both, complex and physiologically relevant. The main component in …

Gelatin methacryloyl (GelMA), a photocurable hydrogel, is widely used in 3D culture,
particularly in 3D bioprinting, due to its high biocompatibility, tunable physicochemical …

Abstract 3D bioprinting techniques have emerged as a flexible tool in tissue engineering
and regenerative medicine to fabricate or pattern functional 3D bio-structures with precise …

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 …

The advances in additive manufacturing over the past decade have led to the development
of innovative strategies in several healthcare sectors. The treatment and healing of chronic …

The rising incidence of defects in oral and maxillofacial tissues, linked to factors such as
trauma, tumors, periodontal disease, and aging, poses significant challenges. Current …

Corneal transplantation remains gold standard for the treatment of severe cornea diseases,
however, scarcity of donor cornea is a serious bottleneck. 3D bioprinting holds tremendous …

Collagen is the most abundant extracellular matrix protein that is widely used in tissue
engineering (TE). There is little research done on printing pure collagen. To understand the …

Abstract 3D bioprinting has unlocked new possibilities for generating complex and
functional tissues and organs. However, one of the greatest challenges lies in selecting the …