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Discovery Could Save Thousands of Lives in Emergency Rooms and on Battlefield
The lives of 33,000 people in the United States alone could be saved each year based on the collaborative discovery of three scientists from UMD, the University of Minnesota Medical School—Duluth and the University of Minnesota Medical School – Minneapolis. Matthew Andrews, Ph.D., Lester R. Drewes, Ph.D, and Gregory Beilman, M.D. have designed a low volume resuscitation fluid that may increase the survival rates of people who would otherwise die from hemorrhagic shock. The proprietary product is called Tamiasyn™ which potentially will allow the human body to endure severe blood loss for an extended period of time and also inhibit human organ damage during resuscitation. The long-standing treatment during hemorrhagic shock is to hook up a patient to an IV of solutions that keep the patient hydrated. But that does not slow blood loss, nor does it keep the organs, including the brain, oxygenated.
The University of Minnesota’s Office for Technology Commercialization in Minneapolis has authorized a development stage company to hold an exclusive license to market the product. VitalMedix™ intends to market Tamiasyn™ in combination with a hemorrhagic shock treatment system. It is hoped that this system will offer first responders, trauma center surgeons, and military medics a simple, safe, and reliable product for preventing serious organ damage and death among victims of severe blood loss. It is believed that Tamiasyn™ also might have potential applications during invasive surgery and organ preservation, and in cases of stroke.
Development of the product requires FDA approval, clinical trials, and product introduction in Europe and the United States. VitalMedix™ is charged with raising venture capital to invest in the commercialization of the product. According to the company plan, it will be three years before FDA approval, but the clinical trials tentatively should begin in the second year.
"UMD is truly proud and inspired by the research of Professor Andrews, Professor Drewes and Dr. Beilman," said UMD Chancellor Kathryn A. Martin. "Their collaborative discovery is a giant step toward life-saving medical treatment for military and accident victims. Their work exemplifies the high quality research currently being done on the UMD campus." “Saving lives is the ultimate goal of any scientific endeavor, and we are very proud that Tamiasyn™ had its start right here on our campus,” praised Gary Davis, Senior Associate Dean of the University of Minnesota Medical School—Duluth.
Andrews, professor and head of the UMD Department of Biology, has been studying hibernating animals for 16 years and is considered an international expert on the molecular biology of hibernation. Lester R. Drewes, Ph.D. heads the Department of Biochemistry and Molecular Biology at the University of Minnesota Medical School-Duluth and is known internationally for his research related to the blood-brain barrier and neuroprotection. He is a recipient of the Javits Award from National Institutes of Health and the founding president of the International Brain Barriers Society. Beilman is professor of Surgery and Anesthesia, chief of Surgical Critical Care/Trauma at the University of Minnesota. In addition to research in tissue monitoring during hemorrhagic and septic shock, Beilman conducts research in pathogenesis and early metabolic changes in shock.
“Since 2000 we have watched Dr. Matt Andrews’ hibernation studies unfold,” commented James Riehl, dean of the Swenson College of Science and Engineering at UMD. “To see this collaboration with Drs. Drewes and Beilman now come so close to achieving the promise is very exciting, for us as a college and for the public. This is a great example of how academic research may lead to very important benefits to society.”
Andrews and Drewes are readying their research for publication in scientific journals. They also continue to refine and advance the research for other applications, for example the implications of their research to improve the outcomes for stroke and heart attack victims. In addition, they foresee an application for preserving organs used for transplant. Most abdominal organs used for transplantation can be preserved 24 to 48 hours from the point of removal to implant. Hearts and lungs can be preserved only minutes to hours. If their work helps extend the life of the organs, effectively prompting the organs to hibernate, organ banks could be established that make more organs available on an as-needed basis.
from the UMD Medical School Website
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