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WASHINGTON: Hibernating bears go many months without food, can sustain healthy pregnancies and can uncouple temperature and metabolism more effectively than researchers have ever imagined, according to a new study.
In the first study to continuously measure the metabolic rates and body temperatures of black bears as they hibernated through the winter under natural conditions, researchers are hoping the information could help people in trauma situations, and in deep space.
"Hibernating bears function pretty much like a closed system, all they need is air," said Brian Barnes of the Institute of Arctic Biology (IAB) at the University of Alaska Fairbanks.
Helping heart attack and stroke victims
By studying the black bears' (or Ursus americanus), mastery of lowering their metabolic rate for five to seven months, researchers hope to find clues for saving the lives of people who suffer major medical traumas, like heart attacks or stroke.
Such traumas create "a problem of supply and demand. Your supply of oxygenated blood to your brain is quickly lowered but the demand stays high and you have to get to a hospital very quickly," Barnes said.
"If we can uncover the way that hibernators turn down that metabolic demand... then one could imagine a therapy where you would - in somebody who is stricken - lower the metabolic demand to match that reduced supply," he said.
Extending the ‘golden hour’
That way, a victim could be placed in a "state of equilibrium", Barnes said. "We like to say we could extend the ‘golden hour’ - during which if you reach advanced medical care outcomes are better - to a golden day or a golden week. Certainly that is what these animals display."
Barnes and his research team, led by IAB researcher Oivind Toien, published a study on hibernating bears in the journal Science, and found that their metabolic rate dips lower than previously thought, slowing by 75%.
However, the bears' body temperature only fell five to six degrees Celsius, and one pregnant female maintained a normal, wakeful body temperature throughout the hibernation period – a detail that implies fluctuating temperature cycles may not be favourable for embryonic development.
