Abstract 3D bioprinting is a pioneering technology that enables fabrication of biomimetic,
multiscale, multi-cellular tissues with highly complex tissue microenvironment, intricate …

Humans and animals lose tissues and organs due to congenital defects, trauma, and
diseases. The human body has a low regenerative potential as opposed to the urodele …

Droplet-based bioprinting (DBB) offers greater advantages due to its simplicity and agility
with precise control on deposition of biologics including cells, growth factors, genes, drugs …

Natural hydrogels are one of the most promising biomaterials for tissue engineering
applications, due to their biocompatibility, biodegradability, and extracellular matrix …

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 …

Exploring innovative solutions to improve the healthcare of the aging and diseased
population continues to be a global challenge. Among a number of strategies toward this …

Articular hyaline cartilage is extensively hydrated, but it is neither innervated nor
vascularized, and its low cell density allows only extremely limited self-renewal. Most clinical …

The demand for organ transplantation and repair, coupled with a shortage of available
donors, poses an urgent clinical need for the development of innovative treatment strategies …

Bioprinting is an emerging technology for constructing and fabricating artificial tissue and
organ constructs. This technology surpasses the traditional scaffold fabrication approach in …

Objectives Bioprinting of bone and cartilage suffers from low mechanical properties. Here
we have developed a unique inkjet bioprinting approach of creating mechanically strong …