A new technique which slashes the time taken to diagnose microbial infections from days to minutes could help save lives and ...

Monitoring cancer cells effectively can help physicians with treatment and management, thus reducing cancer-related mortality. Can non-invasive technologies pave the way for improved monitoring to ...

Blockchain, nanomedicine, and 3D printing signal a growing emphasis on improving healthcare delivery through innovative ...

Microfluidics technology development is entering a new phase, according to Andreas Manz, Ph.D., head of research at the Korea Institute of Science and Technology, Saarbrücken, Germany. Now that the ...

A research group has developed a novel and highly accessible technology for producing uniform biomolecular condensates using a simple, low-cost vibration platform. The study is published in the ...

KAIST researchers developed a modular organ-on-a-chip that reproduces rhabdomyolysis, revealing how drug-induced muscle ...

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 ...

Microfluidics involves fluid manipulation and control at a submillimeter scale within microfabricated channels etched on a chip, forming a miniature laboratory capable of performing complex analytical ...

Microfluidics technology developed by Advanced Liquid Logic would become part of new diagnostics developed by GenMark Diagnostics (NASDAQ:GNMK) in a preliminary deal that would also give GenMark an ...

Often hidden from view, microfluidics underlies a variety of devices that are essential to our lives, from inkjet printers to glucometers for the monitoring of diabetes. Microfluidics—which refers to ...