NanoBio, UM Get $1.5 Million Grant For New Anti-Infectives
Researchers from NanoBio Corp. and the University of Michigan Medical School Tuesday announced the receipt of a $1.5 million grant from the Department of Defense to study the use of nanoemulsion-based therapies for protection against burn and wound infections.
This grant will fund studies of a NanoBio compound called NB-201, an anti-infective treatment based on a nanoemulsion. It's being developed by NanoBio and UM.
In animal studies, NB-201 has been shown to dramatically reduce the severity of burn wound infections as well as inflammation following burn injuries.
NB-201 is based on NanoBio's patented NanoStat technology, which uses nanoemulsions to physically disrupt the outer membrane of a pathogen, killing the microbe. This unique, physical mechanism of action of NB-201 limits the potential for drug resistance to develop. And unlike currently available therapies, NB-201 is selectively toxic to microbes while non-irritating to skin and healthy tissue.
In combat situations, soldiers frequently suffer devastating wounds in circumstances where sterile medical care cannot be provided. Following injury, as soldiers are treated and evacuated from the battlefield, their wounds are sometimes exposed to bacteria that can lead to life-threatening complications. This risk is particularly high after severe burn injury. Prevention of wound infection and controlling inflammatory response is critical to aiding the recovery process and protecting soldiers from debilitating and life-threatening infections.
"NB-201 represents a major advance in wound care technology," said James R. Baker, Jr., MD, founder and CEO of NanoBio. "It is a topical treatment that can be safely and easily applied at the time of injury without causing pain or interfering with the healing process. The nanoemulsion therapy prevents infection that often occurs in combat situations as a result of wound exposure. NB-201 is stable at high temperatures, can be safely transported to remote areas that lack controlled storage and is easily administered. These attributes are critical to providing care to wounded soldiers in combat scenarios."
More at www.nanobio.com
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