Mini-centrifuge for simpler study of blood cells opens new organ-on-chip possibilities
A simple innovation the size of a grain of sand means we can now analyse cells and tiny particles as if they were inside the human body.
See also stories tagged with Microfluidics
A simple innovation the size of a grain of sand means we can now analyse cells and tiny particles as if they were inside the human body.
Machine learning algorithms can predict stock market fluctuations, control complex manufacturing processes, enable navigation for robots and driverless vehicles, and much more.
Respiratory distress syndrome is the second major cause of newborn mortality. Health care providers especially struggle to deliver oxygen to preterm newborns, who account for roughly one-tenth of all births in the U.S., because ...
At Stanford University, researchers have used a new microfluidic analysis system to extract 29 novel microbial genomes (the complete set of genetic material) from samples from two Yellowstone National Park hot springs. They ...
Fragrances can be powerful. They can sooth or revitalize, evoke the forest or sea, and remind us of the past. To capture them, manufacturers infuse scents into products from toilet bowl cleaners to luxury perfumes. But once ...
(Phys.org) —Trillions of bacteria live in and on the human body; a few species can make us sick, but many others keep us healthy by boosting digestion and preventing inflammation. Although there's plenty of evidence that ...
(Phys.org) —Wearing a fitness tracker on your wrist or clipped to your belt is so 2013. Engineers at the University of Illinois at Urbana-Champaign and Northwestern University have demonstrated thin, soft stick-on patches ...
(Phys.org) —Identify the type of cancer for patients with breast cancer in a few minutes. This is the challenge that EPFL researchers successfully met by presenting their new "microfluidic chip." Their research is written ...
Living cells are surrounded by a membrane that tightly regulates what gets in and out of the cell. This barrier is necessary for cells to control their internal environment, but it makes it more difficult for scientists to ...
(Phys.org) -- An ingenious technique, developed by scientists at Pacific Northwest National Laboratory, enables real-time examination of molecular-scale interactions on liquid surfaces. This novel creation combines the manipulation ...