Biopolymers are promising environmentally benign materials applicable in multifarious
applications. They are especially favorable in implantable biomedical devices thanks to their …

Abstract 3D bioprinting technology can rapidly process cell-loaded biomaterials to prepare
personalized scaffolds for repairing defective tissues, tissue regeneration, and even printing …

Bioprinting is an innovative and emerging technology of additive manufacturing (AM) and
has revolutionized the biomedical sector by printing three-dimensional (3D) cell-laden …

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 …

In industries as diverse as automotive, aerospace, medical, energy, construction,
electronics, and food, the engineering technology known as 3D printing or additive …

The advent of three-dimensional (3D) bioprinting has enabled impressive progress in the
development of 3D cellular constructs to mimic the structural and functional characteristics of …

Abstract Organ‐on‐a‐chip (OOC) platforms recapitulate human in vivo‐like conditions more
realistically compared to many animal models and conventional two‐dimensional cell …

Hydrogels are three-dimensional polymer networks with hydrophilic properties. The
modifiable properties of hydrogels and the structure resembling living tissue allow their …

Tissue injury is a collective term for various disorders associated with organs and tissues
induced by extrinsic or intrinsic factors, which significantly concerns human health. In vivo …

For the past years, fused deposition modeling (FDM) technology has received increased
attention in the applications of industrial manufacturing fields, particularly for rapid …