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Paramedics may be best first line of defense in treating stroke patients
This study involved an unprecedented cooperative effort of paramedics in the field and emergency physicians serving as investigators,” said Dr. Sidney Starkman, co-principal investigator and co-director of the UCLA Stroke Center. “Through this study we were able to instill permanently in everyone’s mind the idea that ‘time is brain.’ We believe this represents a paradigm shift in the treatment of stroke and potentially numerous other neurological conditions,” said Starkman, who also is professor of emergency medicine and neurology at the Geffen School. “We demonstrated that paramedics not only are eager to pr...
Source: UCLA Newsroom: Health Sciences - February 5, 2015 Category: Universities & Medical Training Source Type: news

Quick magnesium treatment fails to improve stroke outcomes, but study has silver lining
In the first study of its kind, a consortium led by UCLA physicians found that giving stroke patients intravenous magnesium within an hour of the onset of symptoms does not improve stroke outcomes.   However, the 8-year trial did find that with the help of paramedics in the field, intravenous medications can frequently be administered to stroke victims within that so-called "golden hour," during which they have the best chance to survive and avoid debilitating, long-term neurological damage.   The latter finding is a "game-changer," said Dr. Jeffrey Saver, director of the UCLA Stroke Center and a professor of ...
Source: UCLA Newsroom: Health Sciences - February 13, 2014 Category: Universities & Medical Training Source Type: news

Device that measures cell strength could help identify drugs for asthma, hypertension and muscular dystrophy
Engineers, doctors and scientists at UCLA and Rutgers University have developed a tool that measures the physical strength of individual cells 100 times faster than current technologies.The new device could make it easier and faster to test and evaluate new drugs for diseases associated with abnormal levels of cell strength, including hypertension, asthma and muscular dystrophy. It could also open new avenues for biological research into cell force. It is the first high-throughput tool that can measure the strength of thousands of individual cells at a time.“Our tool tracks how much force individual cells exert over time...
Source: UCLA Newsroom: Health Sciences - February 9, 2018 Category: Universities & Medical Training Source Type: news