Fluorescence imaging of a budoid. Magenta: forming cartilage. Green: AER cells. Credit: 2025 EPFL/Evangelia Skoufa/Can ...

Scientists at EPFL have created a scalable 3D organoid model that captures key features of early limb development, revealing ...

When two cells "talk" to each other, they often do so through tiny channels called electrical synapses. Unlike chemical ...

Explore the innovative technique of 3D necroprinting, utilizing mosquito anatomy for high-precision 3D fabrication.

New research reveals that cells can sense far beyond their immediate surroundings, a biological ability once thought to ...

Researchers around the world are studying how the human brain achieves its extraordinary complexity. A team at the Central ...

Using catalytic chemistry, researchers at Institute of Science Tokyo have achieved dynamic control of artificial membranes, enabling life-like membrane behavior. The work is published in the Journal ...

Dimension Bio wants to grow a simplified liver from cells to sustain patients long enough for a damaged liver to recover—or ...

LC-HT also let the project quantify the number of branch intersections per cell and the distance of each intersection from ...

Uncover the innovations in creating living heart tissue that promise to transform organ regeneration and medical therapies.

A tiny fleet of gold nanorobots is teaching stem cells how to become bone. At the same time, another lab is using gentle ...

An international team of researchers led by the Francis Crick Institute, working with the Paul Scherrer Institute, have developed a new imaging protocol to capture mouse brain cell connections in ...