Nature has consistently inspired engineering applications. Recently, a group of researchers drew new inspirations from the vascular network and developed a new type of fluidic system named VasFluidics ...

The vascular system is the body’s essential infrastructure for regeneration—delivering oxygen, nutrients, and signaling cues that coordinate tissue repair. Over time, however, this regenerative ...

An international research team led by the Levenberg Laboratory in the Faculty of Biomedical Engineering at the ...

How do blood vessels stay strong, flexible, and responsive to the body's changing need for oxygen and nutrients? The answer lies not only in biology—but also in physics. Researchers at Åbo Akademi ...

Vascular endothelial cells serve as a protective barrier in blood-vessel walls and serve as an active source for the synthesis, metabolism, uptake, storage, and degradation of a number of vasoactive ...

Dartmouth researchers have developed a cell phone-based tool that monitors tissue health by using a naturally occurring ...

A cytokinin-mediated, proliferation-based mechanism is involved in the generation and maintenance of cell-type specific tissue boundaries during vascular development in Arabidopsis roots. Specifically ...

Wake Forest Institute for Regenerative Medicine (WFIRM) researchers have shown the feasibility of bioengineering vascularized functional renal tissues for kidney regeneration, developing a partial ...

LATHAM, N.Y.--(BUSINESS WIRE)-- AngioDynamics, Inc. (NASDAQ: ANGO), a leading and transformative medical technology company focused on restoring healthy blood flow in the body’s vascular system, ...

There is a global shortage of transplantable organs, from which have emerged two main approaches to solving this issue: xenotransplantation and bioengineering. With all the news in pig-to-human organ ...