Cellular, animal and computational models of the disease are providing fresh insights into biology and treatment.

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

Scientists and regulators have long acknowledged the weaknesses in traditional methods used to identify drugs that may harm ...

For every 70 people needing corneal implants, there is only one donor cornea available. Now, a 3D printer can make hundreds of perfect copies from that single donor cornea. So far ...

In a little over 10 years, organoid models – miniature, lab-grown clusters of cells that imitate real organs – have transformed how we study human development and disease while accelerating drug ...

Mosquitoes live almost everywhere on Earth and are easy to rear. The team estimates that organic 3D printing nozzles made ...

Atelerix, a biotech company revolutionizing cell preservation and biological transport with its pioneering hydrogel ...

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

Creating physiologically relevant conditions for cells that replicate in vivo environments can improve experimental results, ...

In this interview, Alastair Carrington, director at Atelerix, outlines how hydrogel-based preservation technology can enable ...

The hydrogel preservation technology maintains cell viability for days at room temperature, removing cold-chain constraints.

Researchers at Texas A&M University model extreme conditions using 3D bioprinting, revealing insights that could make flight and space travel protocols safer while driving new breakthroughs in ...