NEWS & EVENTS
In the near future, hemophiliacs could be able to treat their disease by simply swallowing a capsule. Thanks to a new breakthrough, treatment for hemophilia can now be administered via a biodegradable system, a capsule, giving people affected by the hereditary bleeding disorder hope for a less expensive, less painful treatment option than conventional injections or infusions. Read more at UT News.
A research team has developed a first-of-its-kind soft, flexible microfluidic device that easily adheres to the skin and measures the wearer's sweat to show how his or her body is responding to exercise. Read more at Northwestern Research News.
Scientists report using human pluripotent stem cells to grow human intestinal tissues that have functioning nerves in a laboratory, and then using these to recreate and study a severe intestinal nerve disorder called Hirschsprung’s disease. Read more at Engadget.
A new biomaterial is under development that has potential to protect patients at high risk for bleeding in surgery, report researchers. Read more at BioPortfolio.
Imagine swallowing a pill today that continues releasing the daily dose of a medicine you need for the next week, month or even longer. Investigators have developed a long-acting drug delivery capsule that may help to do just that in the future. To test the capsule's real-world applications, the team used both mathematical modeling and animal models to investigate the effects of delivering a sustained therapeutic dose of a drug called ivermectin, which is used to treat parasitic infections. Read more at MIT News.
Researchers have combined one of nature’s tiny miracles, the diatom, with a version of inkjet printing and optical sensing to create an exceptional sensing device that may be up to 10 million times more sensitive than some other commonly used approaches. Read more at Phys.Org.
A new imaging technique stimulates particles to emit laser light and could create higher-resolution images of living tissues, say scientists. Read more at MIT News.
A magnetic ink has been developed that can be used to make self-healing batteries, electrochemical sensors and wearable, textile-based electrical circuits. Read more at UC San Diego News Center.