Since the advent of additive manufacturing, known commonly as 3D printing, this technology
has revolutionized the biofabrication landscape and driven numerous pivotal advancements …

Three-dimensional (3D) printing is a revolutionary additive manufacturing technique that
allows rapid prototyping of objects with intricate architectures. This Review covers the recent …

Abstract 3D bioprinting has enabled the creation of biomimetic tissue constructs for
regenerative medicine and in vitro model systems. Large-scale production of 3D structures …

The generation of 3D tissue constructs with multiple cell types and matching mechanical
properties remains a challenge in cardiac tissue engineering. Recently, 3D bioprinting has …

Abstract 3D printing of soft‐tissue like cytocompatible single material constructs with
appropriate mechanical properties remains a challenge. Hybrid printing technology provides …

Gelatin methacryloyl (GelMA) hydrogels have been extensively used for drug delivery and
tissue engineering applications due to their good biocompatibility, biodegradability, and …

Tissue reconstruction requires the utilization of multiple biomaterials and cell types to
replicate the delicate and complex structure of native tissues. Various three-dimensional …

Natural polymers have been widely used in scaffolds for tissue engineering due to their
superior biocompatibility, biodegradability, and low cytotoxicity compared to synthetic …

Myocardial infarction (MI) is a lethal cardiac disease that causes most of the mortality across
the world. MI is a consequence of plaque in the arterial walls of heart, which eventually …

Approximately half of an adult human's body weight is made up of muscles. Thus, restoring
the functionality and aesthetics of lost muscle tissue is critical. The body is usually able to …