The Impact of Brain Stimulation on Risky Decision Making
A new study has discovered that stimulating the frontal cortex can temporarily increase a person’s financial risk appetite.
According to researchers from the National Research University Higher School of Economics in Russia, economists, biologists, and psychologists use an interdisciplinary approach to explain the nature of and reasons behind certain decisions and inclinations. Called neuroeconomics, it focuses on the neurobiological foundation of decision-making.
“The majority of a person’s decisions take place under conditions of uncertainty or risk. This is why we were particularly interested in uncovering the neurobiological mechanisms of risky decision-making,” said one of the study’s authors, Dr. Zachary Yaple, who is also a research fellow at the university’s Centre for Cognition & Decision Making.
To do this, researchers conducted an experimental game.
Each of the 34 participants chose whether they wanted to participate in a lottery that could potentially bring a monetary profit or receive a guaranteed smaller amount. While the participants were making their decisions, the researchers delivered a transcranial alternating current stimulation on the left and right frontal area of the brain.
The stimulation was delivered online at 5 Hz (theta), 10 Hz (alpha), 20 Hz (beta), and 40 Hz (gamma), according to the researchers.
The results showed a robust effect of the 20 Hz stimulation over the left prefrontal area that significantly increased voluntary risky decision-making, the researchers discovered.
The researchers said they assume the 20 Hz stimulation led to a change in the internal rhythm of the brain and that this may suggest a possible link between risky decision-making and reward processing, underlined by beta oscillatory activity.
Beta waves come about during a state of wakefulness and impact many processes in the brain. They allow a person to concentrate, aid in rapid thinking, and help achieve a goal and work with maximum efficiency, the researchers explained.
Researchers recently discovered that beta waves are particularly enhanced in the frontal cortex when a person receives an unexpected reward. Previous studies suggest that beta oscillations could synchronize brain structures involved in reward processing. By affecting beta activity, the researchers could make outcomes of a risky decision seem more appealing, they explained.
The study was published in eNeuro, a journal published by the Society for Neuroscience.
Wood, J. (2017). The Impact of Brain Stimulation on Risky Decision Making. Psych Central. Retrieved on March 21, 2018, from https://psychcentral.com/news/2017/12/31/the-impact-of-brain-stimulation-on-risky-decision-making/130603.html