Innovative technology that creates ultra-thin layers of human cells in tube-like structures could spur development of lifelike blood vessels and intestines in the lab. Innovative technology that ...

Scientists at UNSW Sydney have created a new material that could change the way human tissue can be grown in the lab and used in medical procedures. The new material belongs to a family of substances ...

Andrei Georgescu, PhD, CEO of Vivodyne, was hoping to couple his interests in science and engineering when he chose UPenn for his graduate research. His goal was to build on his background in ...

Popular Science recently chose Quinton Smith, UC Irvine assistant professor of chemical and biomolecular engineering, as one of its Brilliant 10 scientists “on the cusp of changing the world” for his ...

A new, easily adopted, 3D-printed device will enable scientists to create models of human tissue with even greater control and complexity. An interdisciplinary group of researchers at the University ...

SAN FRANCISCO, CA & PHILADELPHIA, PA — Vivodyne has raised $40 million in Series A funding to expand its cutting-edge robotics and AI platform, which uses lab-grown human tissues to transform ...

Researchers offer insights into the ethical dilemmas and legal complexities surrounding brain organoids, especially those derived from human fetal tissue. Their findings advocate for thorough ...

Tissue microarrays combines tens to hundreds of paraffin-embedded tissue cores into a single paraffin block. It is a practical and highly effective technique for high-throughput analyses of various ...