Hair may grow in a completely different way than scientists once believed. Instead of being pushed out from the root, new ...

Christopher H. Contag explores how tissue regeneration involves organized interactions beyond just cell replacement, highlighting two emerging technologies ...

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 ...

Treating hair loss is a multi-billion dollar business, so scientists (and many others) are interested in understanding how to ...

A remarkably small bacterium containing fewer than 500 genes serves as the basis for one of the most detailed digital life ...

The challenges of connecting molecular changes to tissue structure and highlights the potential of multifractal frameworks to quantify complex biological patterns ...

Scientists offer new insight into how the body detects light touch and how disruptions in that process may contribute to sensory disorders.

New UAB research uncovers how NFAT helps uterine NK cells support early placenta development, shedding light on pregnancy health and the roots of complications like preeclampsia.

Researchers may have discovered a new way to diagnose and treat major depression at the earliest stage of the condition, ...

The intense "squeezing" pressure experienced by early cancer cells may benefit some cancer cells, as breast cancer cells hijack a touch sensor to multiply rapidly and migrate from the primary tumor ...

A surprising energy imbalance in the brain and blood cells may offer a new way to detect and treat depression earlier.

XCells Biotechnologies USA, Inc. ("iXCells"), a leading provider of human cell-based solutions and custom iPSC services, today announced the delivery of over 500 characterized induced pluripotent stem ...