Brain injuries are often dangerous
and very complex;©panthermedia.net
The new technology, invented by Doctor Stephen Scott, a professor at The Centre for Neuroscience Studies at Queen's, is the only objective tool for assessing brain function, and clinical researchers need this tool to develop better therapies for treating brain injury or disease.
"The beauty of this system is it that it captures subtle deficits caused by a brain injury that are not measured by traditional tests," says Scott. "Traditional testing methods, such as touching a finger to the nose or bouncing a ball, just don't capture the complexity of brain processes."
KINARM combines a chair with robotic 'arms' and a virtual/augmented reality system that enables neuroscience and rehabilitation researchers to guide their patient through a series of standardized tasks, such as hitting balls with virtual paddles. Once the tests are completed, the system instantly generates a detailed report, pinpointing variations from normal behaviour.
"This system has the potential to do for the diagnosis of brain injury what X-rays did for diagnosing muscular and skeletal injuries," says John Molloy, President and CEO of Queen's University's PARTEQ Innovations.
Knowing the full effects of a brain injury on the ability to function in daily life means more effective rehabilitation programs for patients. It also means a better understanding of the potential impact of brain injury, whether caused by accidents or by diseases including stroke, MS, Parkinson's, cerebral palsy or fetal alcohol syndrome.
KINARM also has potential to help people in professional sports and the military, where impact-based head injuries are an occupational reality, and where there is a significant lack of effective tools for determining when patients can safely return to regular duties without the risk of a career-ending injury.
COMPAMED.de; Source: Queen's University