Allison V. Smith for The Texas Tribune
Antionne Williams, a volunteer subject at Texas Health Presbyterian Hospital Dallas.
Researchers applied so much suction to the box that the blood in Mr. Williams’s torso pooled in his legs. Then they raised his body temperature so it was equal to a low-grade fever.
The point of the exercise? To simulate the effects of hemorrhaging wounds that injured soldiers might experience in the Afghan desert.
Researchers at the Institute for Exercise and Environmental Medicine at Texas Health Presbyterian Hospital Dallas hope the experiment on Mr. Williams will help them better understand how heat stress affects the body’s reaction to hemorrhaging wounds. That knowledge could improve care for soldiers in the Middle East and even construction workers, police officers and firefighters who sustain bleeding injuries in the Texas summer heat.
The research, part of a joint venture with the University of Texas Southwestern Medical School, is led by Craig Crandall, a professor at the medical school and a thermoregulation expert. Mr. Crandall and his team have conducted 10 clinical trials during which they have simulated hemorrhaging conditions in about 150 test patients, including Mr. Williams, 31. For four years, Mr. Crandall’s research has been financed by a National Institutes of Health grant worth about $290,000 annually, but only part of that goes to this study.
The researchers simulate hemorrhaging by using negative pressure to force blood to pool in a test patient’s lower limbs, leaving the chest and torso with less blood temporarily. To create negative pressure, the patient’s lower half is squeezed into a wood box secured at the waist with a harness. The box is sealed and a pump creates suction so strong it pulls blood from the patient’s core to the legs. At the same time, the researchers put the patients in a chamber that raises their core temperature as high as 102 degrees Fahrenheit.
Mr. Williams, who estimated he had been in “the box” five to eight times said this time was particularly unpleasant. “Sometimes I just feel a little warm, but this time I felt like I was trapped, like there were a ton of bricks on my chest,” he said.
After five years of tests, researchers discovered that the body’s natural cooling mechanism, which increases blood flow to a heat-stressed patient’s skin, also contributes to increasedblood loss from hemorrhaging wounds. As a result, less blood may flow to the vital organs and the brain.
Doctors have long known the consequences of hypothermia for patients with bleeding injuries; standard emergency-care practices call for warming hemorrhaging patients to avoid shock. But Mr. Crandall’s team found that higher temperatures might also lead to complications for patients with bleeding injuries.
He believes the research will redirect the focus of urgent care for bleeding injured patients in high temperatures and, during those critical moments, increase blood flow to vital organs.
“There’s nothing you can do about the blood on the ground,” he said. But by cooling a patient externally, “you can redirect the blood from the skin back to the vital organs.”
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