A Canadian study has found that training of a particular brainwave in humans can be used to restore brain function in mental disorders.
Scientists say the technique allows training of the brain’s alpha rhythm, enhancing the brain network responsible for cognitive control.
Researchers at the Western University and the Lawson Health Research Institute discovered that functional changes within a key brain network occur directly after a 30-minute session of noninvasive, neural-based training.
Experts have long believed that dysfunction of this cognitive-control network is implicated in a range of brain disorders including attention deficit hyperactivity disorder, schizophrenia, depression and post-traumatic stress disorder.
During neurofeedback, users learn to control their own brain activity with the help of a brain-computer interface. In the simplest case, this consists of a computer that records brainwaves through surface sensors on the scalp, known as an EEG (electroencephalogram).
The system is then able to process and simultaneously represent a user’s real-time brain activity, displayed from moment to moment during a training game on a computer.
This setup is known as a neurofeedback loop, because information of brain activity is continually fed back to a user, reflecting their level of control.
The real-time feedback helps users to reproduce distinct normal brain states and promises to be an innovative way to foster brain changes without adverse effects.
Researchers say a remodeling of the brain to a normal state is possible because of neuroplasticity, a natural property of the brain that enables it to reorganize after continual training.
The new findings help to address a long-standing issue in the field: whether neurofeedback training can trigger any brain changes at all.
“The effects we observed were durable enough to be detected with functional MRI up to 30 minutes after a session of neurofeedback which allowed us to compare brain and behavioral measures more closely in time,” said Tomas Ros, Ph.D., lead author of the study.
“We were excited to find that increased metabolic coupling within a key cognitive network was reflected in the individual level of brainwave change provoked by neurofeedback. The same measures were found to be tightly correlated with reductions in mind-wandering during an attention task.
“Amazingly, this would imply that the brain’s function may be entrained in a direction that is more attentive and quiet. In other words, our findings speak for the exquisite functional plasticity of the adult brain, whose past activity of little more than 30 minutes ago can condition its future state of processing. This has already been hinted at in meditation research, but we arrived at a direct and explicit demonstration by harnessing a brain-computer interface.”
Senior author Dr. Ruth Lanius said: “Compared to the lack of significant findings in the control group that received training with false feedback, our findings are unambiguously supportive of a direct and plastic impact of neurofeedback on a central cognitive-control network, suggesting a promising basis for its use to treat cognitive disorders.
“We hope that our observations will stimulate more research by the science community in order to fully evaluate EEG neurofeedback as a viable and potentially revolutionary approach for the treatment of brain disorders.
“We are very excited by this promise and anticipate a host of new studies in this direction, particularly for cognitive disorders. Our current work has now moved into the clinical domain to examine whether patients with post-traumatic stress disorder may benefit from this advance.”
Source: University of Western Ontario