The lack of in vitro tissue and organ models capable of mimicking human physiology
severely hinders the development and clinical translation of therapies and drugs with higher …

Bioprinting techniques have been flourishing in the field of biofabrication with pronounced
and exponential developments in the past years. Novel biomaterial inks used for the …

Bioprinting is an emerging field that is having a revolutionary impact on the medical
sciences. It offers great precision for the spatial placement of cells, proteins, genes, drugs …

Bioprinting is rapidly being adopted as a major method for fabricating tissue engineering
constructs. Through the precise deposition of cell-and bioactive molecule-laden materials …

Bioprinting offers a highly-automated and advanced manufacturing platform that facilitates
the deposition of bio-inks (living cells, biomaterials and growth factors) in a scalable and …

In the past decade, immense progress has been made in advancing personalized medicine
to effectively address patient-specific disease complexities in order to develop individualized …

Abstract In 2013, the “biofabrication window” was introduced to reflect the processing
challenge for the fields of biofabrication and bioprinting. At that time, the lack of printable …

Regenerative medicine and tissue engineering have seen unprecedented growth in the past
decade, driving the field of artificial tissue models towards a revolution in future medicine …

There is a great need for the development of biomimetic human tissue models that allow
elucidation of the pathophysiological conditions involved in disease initiation and …

Bioprinting is a 3D fabrication technology used to precisely dispense cell-laden biomaterials
for the construction of complex 3D functional living tissues or artificial organs. While still in its …