Gelatin is a promising material as scaffold with therapeutic and regenerative characteristics
due to its chemical similarities to the extracellular matrix (ECM) in the native tissues …

The current need for organ and tissue replacement, repair, and regeneration for patients is
continually growing such that supply is not meeting demand primarily due to a paucity of …

Tissue engineering (TE) is a highly interdisciplinary research field driven by the goal to
restore, replace, or regenerate defective tissues. Throughout more than two decades of …

Hydrogels are hydrophilic polymer‐based materials with high water content and physical
characteristics that resemble the native extracellular matrix. Because of their remarkable …

3D cell-culture models have recently garnered great attention because they often promote
levels of cell differentiation and tissue organization not possible in conventional 2D culture …

Tissue engineering has been a promising field of research, offering hope for bridging the
gap between organ shortage and transplantation needs. However, building three …

Electrohydrodynamic atomization (EHDA), also called electrospray technique, has been
studied for more than one century. However, since 1990s it has begun to be used to produce …

Cell-laden microgels have been used as tissue building blocks to create three-dimensional
(3D) tissues and organs. However, traditional assembly methods cannot be used to fabricate …

Regeneration of diseased tissue is one of the foremost concerns for millions of patients who
suffer from tissue damage each year. Local delivery of cell-laden hydrogels offers an …

Background Hydrogels based on organic/inorganic composites have been at the center of
attention for the fabrication of engineered bone constructs. The establishment of a …