People who can “see” their brain activity can change it, after just one or two neurofeedback sessions, new research shows.

People in the study were able to quiet activity in the amygdala — an almond-shaped brain region that processes emotions such as fear — after seeing simple visual or auditory cues that corresponded to the activity level there, according to a new study published in the Sept. 15 issue of the journal Biological Psychiatry. The findings reveal the incredible plasticity of the brain, the researchers said.

The new technique could one day be used as an inexpensive treatment for people with anxiety, traumatic stress or other mental health conditions, said study co-author Dr. Talma Hendler, a psychiatrist and neuroscientist at the Tel Aviv Center for Brain Functions in Israel.

“I see it as a very good tool for children and for people who we don’t want to give medication,” Hendler told Live Science.

Healing the brain

Past studies have shown that people have tremendous power to shape their brain activity. For instance, mindfulness meditation, a type of meditation in which people focus on sensations from the body, can help with symptoms of depression, anxiety and even low back pain. And studies show that Buddhist monks who have practiced meditating a lot are much better at “clearing the mind” than the average person. In other words, control over one’s own mind can be learned.

However, most of these attempts to control brain activity are indirect, and they often alter activity across the entire brain.

Hendler and her colleagues wondered whether targeting the specific brain regions tied to specific conditions could be a more effective way of helping people with specific symptoms.

In a series of four different experiments with several dozen healthy people, Hendler and her colleagues asked the volunteers to sit inside a functional magnetic resonance imaging (fMRI) machine while simultaneously wearing an electroencephalogram (EEG) hat. The fMRI provided detailed information about which brain regions were active, and the EEG measured activity in the amygdala; together, they allowed the team to pinpoint the precise EEG signature that corresponded to amygdala activation.

Participants were then treated with neurofeedback, in one of two ways: In one condition, they listed to a sound, and in the other, they were shown a movie of a person riding a skateboard. But what they didn’t know was that the loudness of the sound they were hearing, or the speed of the person on the skateboard, was actually determined by the electrical activity going on in their own amygdala. The researchers channeled the measurements coming from the fMRI and EEG into an audible sound or a moving image.

The participants were asked to use “mental strategies” to make either the sound grow quieter, or the skateboarder go faster. If they succeeded, what they were really doing was tamping down the activity in their amygdala.

In a control group, participants were asked to do the same thing, but were treated with a fake neurofeedback. Unlike the true treatment group, the speed of the skateboard and the level of the sound were unrelated to the amygdala’s activity, meaning that when the participants observed a change in the skateboarder’s speed or the sound’s volume, they were not altering their brain activity levels directly.

At-home therapy

The findings suggest that this type of neurofeedback technique could one day become a cheap and relatively simple way for patients to be treated for anxiety, PTSD or other psychological conditions that are tied to amygdala hyperactivation, Hendler said.

Right now, the treatment requires an EEG cap that calls for gel and wiring, making it unsuitable for home use. But in the future, the team envisions using a wireless, miniature sensor that a patient could use at home, after an initial instructional session with a physician, Hendler said.

However, follow-up studies need to show that this method of targeted brain training works as well as techniques like mindfulness meditation or cognitive behavioral therapy, Hendler said.

“We hope this is a better way to actually modulate specific areas, and bring on some plasticity that is necessary to cure the brain,” Hendler said.