At first glance, it looks like the start of a human pregnancy: A ball-shaped embryo presses gently into the receptive lining ...

Tiny gel droplets enhanced with University of Queensland technology could open new pathways to repairing and replacing damaged organs. Dr. Ruirui Qiao and her team at UQ's Australian Institute for ...

Scientists at the Dutch food research organization NIZO and the University of Twente have developed a human-relevant, ...

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 ...

Traditional animal models and simplified cell cultures often fail to capture human biology, limiting progress in biomedical research and drug development. Emerging microfluidic "Organ-on-Chip" ...

Organ-on-a-chip technology, which uses microfluidic systems to culture cells in ways that mimic human physiology, could help to reduce scientists’ dependence on ...

Tiny gel droplets enhanced with University of Queensland technology could open new pathways to repairing and replacing damaged organs. Subscribe to our newsletter for the latest sci-tech news updates.

SARASOTA, Fla., June 10, 2025 /PRNewswire/ -- World Precision Instruments (WPI), the global leader in transepithelial electrical resistance (TEER) technology, in collaboration with SynVivo, a leader ...

The gut–islets axis connects nutrient sensing in the intestine with insulin secretion from the pancreas and plays an ...