March 27, 2017
March 27, 2017 —
Researchers led by Karen Christman, a bioengineering professor at the University of California San Diego, were awarded nearly $3.1 million by the governing Board of the California Institute for Regenerative Medicine March 23. Their work aims to help people with peripheral arterial disease. The condition narrows and blocks arteries providing blood supply to the legs resulting in cramping, pain and fatigue condition called critical limb ischemia. It leads to an estimated 230,000 amputations every year in North America and Europe.
March 13, 2017
March 13, 2017 —
A team of engineers at the University of California San Diego and La Jolla-based startup Nanovision Biosciences Inc. have developed the nanotechnology and wireless electronics for a new type of retinal prosthesis that brings research a step closer to restoring the ability of neurons in the retina to respond to light. The researchers demonstrated this response to light in a rat retina interfacing with a prototype of the device in vitro.
February 8, 2017
February 8, 2017 —
Engineers at the University of California San Diego have developed a desktop diagnosis tool that detects the presence of harmful bacteria in a blood sample in a matter of hours instead of days. The breakthrough was made possible by a combination of proprietary chemistry, innovative electrical engineering and high-end imaging and analysis techniques powered by machine learning. The team details their work in the Feb. 8 issue of Nature Scientific Reports.
January 10, 2017
January 10, 2017 —
Computer scientists at the University of California San Diego have released a new version of a software system that processes images from the world’s coral reefs anywhere between 10 to 100 times faster than processing the data by hand.This is possible because the new version of the system, dubbed CoralNet Beta, includes deep learning technology, which uses vast networks of artificial neurons to learn to interpret image content and to process data.
December 16, 2016
December 16, 2016 —
The National Science Foundation has awarded a $1.1 million CAREER award to Stephanie Fraley, a bioengineering assistant professor at the University of California San Diego.
The five-year award will allow Fraley and colleagues to continue developing a unique and innovative technology to study how cells migrate in a 3D environment. The work has applications for the study of cancers, wound healing and regenerative medicine.
December 14, 2016
December 14, 2016 —
Engineers at the University of California San Diego have developed a new non-invasive method to detect infections in prostheses used for amputees, as well as for knee, hip and other joint replacements. The method, which is at the proof of concept stage, consists of a simple imaging technique and an innovative material to coat the prostheses.
December 12, 2016
December 12, 2016 —
Researchers at the University of California San Diego for the first time have revealed why the shape of the feather shaft changes from round to square when it’s put under stress in a paper published in recent issue of Advanced Science.
December 12, 2016
December 12, 2016 —
Three teams with ties to the Jacobs School were recognized at this year’s Triton Innovation Challenge at the University of California, San Diego. LifeCycled Materials, led by two Jacobs School alumni, won the competition and a $10,000 prize. Evolution Solutions, a startup cofounded by students at the Jacobs School and the Rady School of Management, came in third and received $2,500. Finally, One Village Philippines, a team that is part of the Jacobs School’s Global TIES program, won the competition’s social venture track and $2,500.
November 2, 2016
November 2, 2016 —
A team of engineers at the University of California San Diego has developed a magnetic ink that can be used to make self-healing batteries, electrochemical sensors and wearable, textile-based electrical circuits. The key ingredient for the ink is microparticles oriented in a certain configuration by a magnetic field. Because of the way they’re oriented, particles on both sides of a tear are magnetically attracted to one another, causing a device printed with the ink to heal itself. The devices repair tears as wide as 3 millimeters—a record in the field of self-healing systems. Researchers detail their findings in the Nov. 2 issue of Science Advances.
September 27, 2016
September 27, 2016 —
Five engineering graduate students from the University of California, San Diego have been named 2017 Siebel Scholars. The Siebel Scholars program recognizes exceptional students at the world’s leading graduate schools of business, computer science, and bioengineering and provides them with a financial award for their final year of studies.
