The advance is seen as significant because the technique was effective in rats – animals that do not naturally hibernate. This raises the prospect that humans may also retain a vestigial hibernation circuit in the brain that could be artificially reactivated.
“If this proves feasible in humans, we could envision astronauts wearing a helmet-like device designed to target the hypothalamus region for inducing a hypothermia and hypometabolism state,” said Hong Chen, an associate professor at Washington University in St Louis, who led the work.
The team first identified a specific group of neurons in a deep brain region called the hypothalamus preoptic area, which were found to be involved in regulating body temperature and metabolism during hibernation. They showed that, in mice, these neurons could be artificially activated using ultrasound, delivered non-invasively through a helmet.
When stimulated, the mice showed a drop in body temperature of about 3C for about one hour. The mice’s metabolism also shifted from using both carbohydrates and fat for energy to only fat, a key feature of torpor, and their heart rates fell by about 47%, all while at room temperature.
The scientists also developed an automatic closed-loop feedback system that delivered an ultrasound pulse to keep the mice in the induced torpor if they showed signs of warming up. This allowed the mice to be kept at 33C in the hibernation-like state for 24 hours. When the ultrasound system was switched off, they woke up again.
The experiments, described in the journal Nature Metabolism, showed that the same device worked in rats, which had a 1C drop in core body temperature when the same brain region was targeted. Chen said the result was “surprising and fascinating” and the team planned to test the technique in larger animals.
by Hannah Devlin, The Guardian | Read more:
Image: Anadolu Agency/Getty Images[ed. Amazing it's so straightforward and non-invasive.]