What we’re building is the physical layer for the next generation of innovation, the technology stack to fabricate ...

MDI Bio Lab scientists discovered how zebrafish solve a basic challenge in regenerative biology—insights in their newest ...

D organoid models are becoming increasingly important in biological research and drug discovery. However, their use remains ...

This article describes an automated brain organoid creation workflow using the CellXpress.ai system, beginning with iPSCs and ...

Tissue Engineering (TE) strategies combining stem cells, biomaterial scaffolds, and biochemical/physical cues have emerged as promising approaches for the repair/replacement of injured tissues and ...

Hypertrophic scarring affects a large proportion of patients following burns, trauma, or surgery and arises from prolonged fibroblast hyperactivity and excessive extracellular matrix accumulation.

D models coupled with live-cell imaging can enhance the overall reliability of preclinical renal safety evaluations.

Labware for 3D cell culture, low-bind labware, and glycan analysis kits are designed to accelerate life science ...

Discover UCL's Human Organ Atlas: an interactive 3D platform for studying human organs in unprecedented detail ...

This article explores how advanced immune imaging technologies enable real-time visualization of immune responses, improving ...

Scientists placed 200,000 living human brain cells on a microchip and showed it how to play a shoot-em-up video game — and ...

Miniature organs grown in the lab can organize themselves into complex shapes, which enables scientists to use them to study ...