Non-invasive brain stimulation that nudges two brain regions to operate in sync may slightly increase generous choices, according to a study published in PLOS Biology on February 10. Researchers say the results add evidence that specific brain-network communication can shape social decision-making.
The international team, led by Jie Hu of East China Normal University with collaborators at the University of Zurich, tested whether coordinating activity between frontal and parietal areas affects altruism. These regions are often associated with goal-directed behavior and higher-level reasoning during complex choices.
Testing generosity in a lab game
The experiment included 44 participants who completed 540 rounds of a standard behavioral task known as the Dictator Game. In each round, a participant decided how to split money with another person, with the amounts varying across decisions.
During the task, the researchers applied transcranial alternating current stimulation, a technique designed to influence brain rhythms through weak electrical currents delivered via the scalp. The goal was to encourage synchrony between the targeted frontal and parietal regions at specific oscillation frequencies.
Gamma synchrony showed the clearest shift
When stimulation was set to strengthen gamma-band synchrony between the two regions, participants became modestly more likely to choose larger splits for the other person. The effect was most apparent even in situations where giving more meant the participant would take less than their counterpart.
Using computational modeling, the team reported that the stimulation appeared to change how people weighed outcomes, increasing the importance placed on the other person’s payoff. The authors described this as a measurable shift in value computations rather than a simple preference for equal splits.
Limits and what comes next
The researchers noted they did not directly record neural activity during stimulation, meaning the intended brain synchrony was inferred rather than confirmed in real time. They suggested future studies combining stimulation with EEG could verify how brain signals change and how long any behavioral effects last.
Coauthor Christian Ruff said the work helps link a specific communication pattern between brain regions to altruistic choices, while Hu emphasized the study’s attempt to demonstrate cause and effect. The team cautioned that the increase in generosity was small and the findings do not imply a tool for controlling behavior outside controlled research settings.
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