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

Researchers at Texas A&M University model extreme conditions using 3D bioprinting, revealing insights that could make flight ...

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

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

A Brisbane AI start-up company has partnered with tech giant Google in hopes of solving a dark secret plaguing the drug ...

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

InSphero acquires DOPPL SA and Sun Bioscience’s Gri3D® platform, expanding its unified 3D spheroid–organoid ecosystem for ...

Clips about current events aren't the only ones going viral; many feature dangerous human interactions with animals. For ...

A transparent chip no larger than a stick of gum is helping scientists at the University of Tennessee Health Science Center, ...

Organoid-on-chip technology merges patient-derived organoids with microfluidic engineering to recreate human physiology and predict drug responses with high precision. This innovation is reshaping ...

Scientists at the University of Osaka have developed a novel hydrogel that enables the efficient, three-dimensional (3D) culture of human induced pluripotent stem cells (iPSCs). By creating a unique ...

In his PhD research at Utrecht University and UMC Utrecht, Marc Falandt developed biomaterials whose properties can be adjusted even after they have been 3D-printed, effectively adding a fourth ...