Researcher decodes the brain to help patients with mental illnesses

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Approximately 1 in 5 adults in the United States experience mental illness in a given year. Severe mental illnesses cause the brain to have trouble dealing with cognitively effortful states, like focusing attention over long periods of time, discriminating between two things that are difficult to tell apart, and responding quickly to information that is coming in fast.

A new study, published in the Journal of Neural Engineering, could improve patients' abilities to manage symptoms of mental illness.

Previous research demonstrated that applying at just the right time helps the brain of a patient with a severe mental illness work through difficult cognitive tasks. However, it was done in a laboratory setting, free from the complexities of real-world activities of daily living.

Senior author Alik Widge, MD, Ph.D, Assistant Professor of Psychiatry at the University of Minnesota Medical School, and investigators at Massachusetts General Hospital (MGH), consisting of researchers from Brown University and MGH, including co-senior author David Borton, Ph.D., Assistant Professor of Engineering at Brown University, were the first to analyze patients' to detect precisely when a patient is focused and their attention is fully devoted, compared to when he or she is 'at rest'. They studied patients who were undergoing surgery for severe epilepsy, who already had measurement electrodes in the relevant brain areas.

The study, which was part of DARPA's SUBNETS program, found that specific signatures and algorithms can be used to tell when someone is focused and really trying to do a task that is hard for them, indicating that they could benefit from an electrical stimulation to get an extra push.

The study also demonstrates that there is no single region of the brain that can tell when someone is in this focused, effortful state. In order to detect when the patient started to focus on a cognitive task, the researchers had to analyze the information at the network level. It was essential to look at how the activity of one region coordinated with the activity of another.

"Using the same neural signals that could drive adaptive deep brain stimulation, we have shown that it is possible to detect mental states that might be amenable to closed-loop control," said lead author Nicole Provenza, MS, Ph.D. candidate, Brown University. "While further research is necessary to generalize our findings to real-world applications, we hope that this work will ultimately contribute to the development of more effective stimulation therapies for mental illness."

"We want to take a patient-centered approach to treating ," explained Widge. "The job of a stimulator is not to take away the symptoms; its job is to help the patient manage his or her symptoms. It gives the power back to the individual and just gives them a little extra help when they need it."

There is still more work to be done, but Widge is excited to take the next step and eventually make these ideas into real products that will help people.

More information: Nicole R Provenza et al. Decoding task engagement from distributed network electrophysiology in humans, Journal of Neural Engineering (2019). DOI: 10.1088/1741-2552/ab2c58

Journal information: Journal of Neural Engineering
Citation: Researcher decodes the brain to help patients with mental illnesses (2019, August 16) retrieved 19 March 2024 from https://medicalxpress.com/news/2019-08-decodes-brain-patients-mental-illnesses.html
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