Bone is a highly vascularized tissue, and its development, maturation, remodeling, and
regeneration are dependent on a tight regulation of blood vessel supply. This condition also …

Three-dimensional (3D) in vitro models, such as organ-on-a-chip platforms, are an emerging
and effective technology that allows the replication of the function of tissues and organs …

Vascularization of 3D models represents a major challenge of tissue engineering and a key
prerequisite for their clinical and industrial application. The use of prevascularized models …

Bioprinting of body tissues has gained great attention in recent years due to its unique
advantages, including the creation of complex geometries and printing the patient-specific …

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 …

An organ-on-a-chip is a device that combines micro-manufacturing and tissue engineering
to replicate the critical physiological environment and functions of the human organs …

Over the past decade, 3D bioprinting technology has progressed tremendously in the field of
tissue engineering in its ability to fabricate individualized biological constructs with precise …

The exact mechanistic understanding of cancer metastasis continues to be unknown,
although it is a major cause of death worldwide. Along with the tumor mass, the tumor …

Bioprinting aims to provide new avenues for regenerating damaged human tissues through
the controlled printing of live cells and biocompatible materials that can function …

Currently, the demand for more reliable drug screening devices has made scientists and
researchers develop novel potential approaches to offer an alternative to animal studies …