Marcus E Carr, MD PhD, a professor in Virginia Commonwealth University
(VCU)'s departments of internal medicine, pathology and biomedical
engineering. He is also president of Hemodyne Inc., a tenant in the Virginia
Biotechnology Research Park.
VCURES Developing High-Tech Bandage for U.S. Army; BioHemostat May Replace
Battlefield Tourniquet, Reduce Amputations
RICHMOND, Va., Oct. 16, 2001 /PRNewswire/ -- As America delivers its military
response to the Sept. 11 terrorist attacks, scientists and engineers at
Virginia Commonwealth University are developing a device to treat high-
pressure bleeding that could save wounded troops and reduce limb amputations.
The BioHemostat was invented by a team lead by Marcus E. Carr, M.D., Ph.D., a
professor in VCU's departments of internal medicine, pathology and biomedical
engineering. The device is designed to replace the ages-old battlefield
tourniquet -- a crude but effective emergency medical device used to restrict
blood flow to injured limbs.
"The good thing about a tourniquet is it stops all blood flow," said Carr,
who also is president of Hemodyne Inc., a tenant in the Virginia
Biotechnology Research Park. "But the bad thing is it can cause
complications, such as nerve damage and blood stoppage, that increase the
risk of amputation."
Made of fibrous material that can absorb about 1,400 times its weight, the
BioHemostat expands when wet to fill a wound and stop arterial bleeding.
This allows blood to continue flowing to other parts of the limb and reduces
amputation risks. The device, which comes in different shapes and sizes, can
be inserted into a wound by a medic or another soldier and left in until
removed by a surgeon.
"Think of Pampers diapers and how they expand when wet," Carr said. Carr
envisions the device being issued to all infantrymen to apply to wounded
comrades when a medic is not available.
Military statistics show two-thirds of all combat-related deaths are due to
bleeding; 80% of those deaths occur within 15 minutes of injury. The
statistics also show the rate of limb amputation due to battlefield arterial
wounds has not improved since World War II, despite aggressive advances in
surgical treatment.
Carr also said the BioHemostat has consumer uses: 50% of all civilian trauma
deaths are from bleeding.
Carr presented his preliminary work on the life-saving device to a U.S.
Department of Defense conference in Florida on Sept. 11, the day of the
terrorist attacks in New York City and at the Pentagon.
Carr's Hemodyne is developing the BioHemostat using high-tech equipment at
VCU's School of Engineering and a $300,000 grant from the Department of
Defense obtained through the Virginia Commonwealth University Reanimation
Engineering Shock Center (VCURES), a coalition of clinicians and basic
scientists from both the medical and academic campus locations of VCU.
"It's been exciting, and I think it will be one example of many
collaborations between medicine and engineering at VCU," said Gary E. Wnek,
Ph.D., chair of chemical engineering.