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. Subscribe to our newsletter ...

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 ...

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 ...

The field of tumor microenvironment research has increasingly highlighted the intertwined relationship between aberrant vasculature and dysregulated immune ...

When biomedical researchers need to test their latest ideas, they often turn to engineered human tissue that mimics the responses in our own bodies. It's become an important intermediary step before ...

Paul Stankey (left) is a fourth-year PhD student at Harvard School of Engineering and Applied Sciences and the Wyss Institute (both MA, USA), working in Professor Jennifer Lewis’ lab. Jennifer leads a ...

Circulating oxygen-rich blood through artificial organs and tissues is a bioengineering conundrum without an easy answer. The problem is in the plumbing. Biomedical teams around the world are working ...

A new study led by researchers at the Johns Hopkins Kimmel Cancer Center, its Bloomberg~Kimmel Institute for Cancer ...

Leaf vasculature plays a pivotal role in nutrient transport and leaf morphology. A new study in Brassica rapa reveals the developmental trajectories of vascular tissues in Chinese cabbage using single ...