
Rapid 3D printing method moves toward 3D-printed organs
Research News Release
EurekAlert! provides eligible reporters with free access to embargoed and breaking news releases.
Eligibility GuidelinesEurekAlert! offers eligible public information officers paid access to a reliable news release distribution service.
Eligibility GuidelinesEurekAlert! is a service of the American Association for the Advancement of Science.
A University at Buffalo-led research team is a 3D printing method called stereolithography and jelly-like materials known as hydrogels to develop a 3D printing method that's 10-50 times faster than the industry standard. The team says its progress toward 3D-printed human tissue and organs -- biotechnology that could eventually save countless lives lost due to the shortage of donor organs.
Autophagy is an intracellular degradation process of cytosolic materials and damaged organelles. Targeted cargo are engulfed by membranes called autophagosome, then delivered to lysosomes where they are degraded. This process is complex, especially in mammals, with many regulatory factors. Researchers in the Ubiquitin Project of Tokyo Metropolitan Institute of Medical Science (TMIMS) discovered mammalian BCAS3-C16orf70 as novel proteins that associate with the autophagosome membranes via interaction with phosphoinositide. These studies were published in Autophagy.
Researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) found large quantities of previously undetectable compounds from the family of chemicals known as PFAS in six watersheds on Cape Cod using a new method to quantify and identify PFAS compounds. Exposures to some PFAS, widely used for their ability to repel heat, water, and oil, are linked to a range of health risks including cancer, immune suppression, diabetes, and low infant birth weight.
A team of EPFL engineers has developed technology that could partially restore vision in blind people.
Scientists from Skoltech and MSU have investigated antibiotic nybomycin that could prove effective against bacteria resistant to other antibiotics.
The treatment uses a type of CRISPR to target viral RNA and appears to stop replication of both viruses in the lungs.
?Micro-Doppler radars could soon be used in clinical settings to predict injury risk and track recovery progress, according to Penn State researchers.?
Researchers in Japan have developed the first wearable devices to precisely monitor jaundice, a yellowing of the skin caused by elevated bilirubin levels in the blood that can cause severe medical conditions in newborns.
A significant advance in 'optical tweezer' technology, developed by researchers at the UTS Institute for Biomedical Materials and Devices, will help boost biomedical research.
Imagine seeing the world in muted shades -- gray sky, gray grass. Some people with color blindness see everything this way, though most can't see specific colors. Tinted glasses can help, but they can't be used to correct blurry vision. And dyed contact lenses currently in development for the condition are potentially harmful and unstable. Now, in ACS Nano, researchers report infusing contact lenses with gold nanoparticles to create a safer way to see colors.