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 ...

Boston Children's Hospital scientists have unveiled a five-day approach to generate functional vascular organoids capable of supporting blood flow and in vivo engraftment. Blood vessels are the living ...

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 ...

Humacyte’s Symvess® is the only human-derived bioengineered blood vessel approved by the U.S. Food and Drug Administration (FDA).

The FDA granted a Priority Review in February 2024 and was assigned a PDUFA date of August 10, 2024. ATEV is a bioengineered human tissue designed to be a universally implantable vascular conduit for ...

Before tissue-engineered blood vessels reach the clinic, they must withstand the mechanical stresses of the vascular system—an assessment that is essential, but often expensive. One University of ...

Steatotic liver disease (commonly called fatty liver disease) progresses silently. Even in the absence of noticeable symptoms, changes begin to unfold inside the liver. While hepatic fat accumulation ...

DURHAM, N.C., Dec. 19, 2024 (GLOBE NEWSWIRE) -- Humacyte, Inc. (HUMA), a biotechnology platform company developing universally implantable, bioengineered human tissues at commercial scale, today ...

An investigational product called Acellular Tissue Engineered Vessel demonstrated superior hemodialysis vascular access outcomes compared with AVFs in a phase 3 trial. A bioengineered human tissue ...

Vascular stents, which consist of a metal structure and a polymer covering, play a critical therapeutic role in cardiovascular treatment. The polymer acts as a physical barrier between blood and the ...