Canberra - QNA
Treatment with scanning ultrasound has already been proven to reverse Alzheimer's disease in mice, and now it appears it could also slow down ageing in healthy brains, according to University of Queensland research.
The research at the Queensland Brain Institute showed that scanning ultrasound prevented degeneration of cells in the brains of healthy mice. Researcher Dr. Robert Hatch said the work was originally designed as a safety study, but soon revealed a broader role for ultrasound in maintaining brain health. "We found that, far from causing any damage to the healthy brain, ultrasound treatments may in fact have potential beneficial effects for healthy ageing brains," Dr. Hatch said.
"In a normal brain the structure of neuronal cells in the hippocampus, a brain area extremely important for learning and memory, is reduced with age. "What we found is that treating mice with scanning ultrasound prevents this reduction in structure, which suggests that by using this approach we can keep the structure of the brain younger as we get older.
"We are currently conducting experiments to see if this preservation of the brain cell structure will ameliorate reductions in learning and memory that occur with ageing." The mice were treated with either one or six scanning ultrasound treatments over six weeks. Their brain cell structure and function were reviewed two hours, one day, one week, and three months after receiving the treatment.
In the next stage of research, the team will test the effect of ultrasound on the brain structure and function of older mice. "Collectively, this research is fundamentally changing our understanding of not only how to treat Alzheimer’s but to maintain general brain health," Dr. Hatch said.
This is a pressing health issue in an ageing society and it's clear that scanning ultrasound technology has a major role to play." Alzheimer's affects more than two thirds of dementia patients, and about a quarter of a million Australians. The total number of dementia cases in Australia is expected to rise to 900,000 by 2050.
Source: QNA