Researchers have built the first-ever molecular atlas of the human brain vasculature at single-cell resolution, spanning from early development to adulthood and through disease stages such as brain ...
New research has shown that single blood vessel cells that appear in the earliest stages of lab-grown skin organoids have the ability to form complex microvascular networks that grow and mature over ...
Blood vessels twist, branch, narrow, and balloon in ways that dramatically affect how blood flows — but most lab models have long treated them like straight pipes. Researchers at Texas A&M have now ...
Blood vessels are essential to nearly all tissues, delivering nutrients and oxygen, regulating hemostasis, and modulating inflammation. Recreating functional vascular networks is foundational to both ...
Using computer-designed proteins, researchers have now shown they are able to direct human stem cells to form new blood vessels in the lab. This milestone in regenerative medicine offers new hope for ...
Guohao Dai, PhD, a bioengineering professor at Northeastern University, helped create a new elastic hydrogel material for 3D printing of soft living tissues, including blood vessels. The breakthrough ...
An international consortium of researchers led by University Health Network (UHN) in Toronto and University of Zurich have built the first-ever molecular atlas of the human brain vasculature at single ...