Recent studies have demonstrated an array of stem cell–derived, self-organizing miniature
organs, termed organoids, that replicate the key structural and functional characteristics of …

Tissue engineering (TE) is an interdisciplinary field integrating engineering, material science
and medical biology that aims to develop biological substitutes to repair, replace, retain, or …

Since the emergence of regenerative medicine and tissue engineering more than half a
century ago, one obstacle has persisted: the in vitro creation of large-scale vascular tissue (> …

Gelatin-methacryloyl (GelMA) is one of the most commonly used photopolymerizable
biomaterials in bio-applications. However, GelMA synthesis remains suboptimal, as its …

Neurovascular inflammation is a major contributor to many neurological disorders, but
modeling these processes in vitro has proven to be difficult. Here, we microengineered a …

Tissue is vital to the organization of multicellular organisms, because it creates the different
organs and provides the main scaffold for body shape. The quest for effective methods to …

Abstract 3D‐printing is emerging as a technology to introduce microchannels into hydrogels,
for the perfusion of engineered constructs. Although numerous techniques have been …

A basic prerequisite for the survival and function of three-dimensional (3D) engineered
tissue constructs is the establishment of blood vessels. 3D bioprinting of vascular networks …

From microscaled capillaries to millimeter‐sized vessels, human vasculature spans multiple
scales and cell types. The convergence of bioengineering, materials science, and stem cell …

Regenerative medicine is an emerging field that centers on the restoration and regeneration
of functional components of damaged tissue. Tissue engineering is an application of …