Abstract
Background: The prefrontal cortex can be partialized in various anatomical and functional sub regions. Among those regions, both right dorsolateral prefrontal cortex (rDLPFC) and ventromedial prefrontal cortex (VMPFC) have been associated with risk-taking behavior based on neuroimaging studies. Noninvasive brain stimulation (NIBS) studies aiming at demonstrating the functional relevance of neural activity in these areas almost exclusively focused on the rDLPFC, where its experimental stimulation with a (generally) inhibitory protocol lead to a measurable increase in risk-taking behavior due to reduced cognitive control. The functional relevance of VMPFC in risk-taking behavior has not yet been addressed using NIBS, although multiple neuroimaging studies correlate this area’s activity with valuation.
Objective/Hypothesis: Here, we used NIBS to investigate the functional relevance of both, the rDLPFC and VMPFC in risk-taking behavior. We hypothesized that, compared to sham stimulation, VMPFC suppression leads to a reduction in risk-taking behavior by reducing the appeal to higher value options and consequently the attractiveness of riskier options, whereas rDLPFC suppression leads to an increase in risk taking, replicating previous findings.
Methods: We applied continuous theta burst stimulation (cTBS), a generally inhibitory protocol, to stimulate either VMPFC or DLPFC before the execution of the computerized Maastricht Gambling Task (MGT) in a within-subject design with 30 participants. The MGT allowed the analysis of potential brain region-specific effects of cTBS on risk-taking behavior such as participants’ choices of average values, probabilities, and response time.
Results: cTBS applied to either rDLPFC or VMPFC both led to an increase in risk-taking behavior and in the average value chosen as compared to sham TMS. No effect on the choice of probabilities was found. A significant increase in response time was observed exclusively after suppressing rDLPFC. We speculate that these similar behavioral consequences following cTBS over DLPFC and VMPFC are likely due to the strong anatomical and functional interconnection between both brain regions.
Keywords: Risk-taking behavior, TMS, cTBS, rDLPFC, VMPFC
Objective/Hypothesis: Here, we used NIBS to investigate the functional relevance of both, the rDLPFC and VMPFC in risk-taking behavior. We hypothesized that, compared to sham stimulation, VMPFC suppression leads to a reduction in risk-taking behavior by reducing the appeal to higher value options and consequently the attractiveness of riskier options, whereas rDLPFC suppression leads to an increase in risk taking, replicating previous findings.
Methods: We applied continuous theta burst stimulation (cTBS), a generally inhibitory protocol, to stimulate either VMPFC or DLPFC before the execution of the computerized Maastricht Gambling Task (MGT) in a within-subject design with 30 participants. The MGT allowed the analysis of potential brain region-specific effects of cTBS on risk-taking behavior such as participants’ choices of average values, probabilities, and response time.
Results: cTBS applied to either rDLPFC or VMPFC both led to an increase in risk-taking behavior and in the average value chosen as compared to sham TMS. No effect on the choice of probabilities was found. A significant increase in response time was observed exclusively after suppressing rDLPFC. We speculate that these similar behavioral consequences following cTBS over DLPFC and VMPFC are likely due to the strong anatomical and functional interconnection between both brain regions.
Keywords: Risk-taking behavior, TMS, cTBS, rDLPFC, VMPFC
Original language | English |
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Publication status | Published - 2022 |
Event | Society for Judgment and Decision Making - Annual Conference 2022 - UCSD Rady School of Management & Hilton La Jolla Torrey Pines, San Diego, United States Duration: 10 Nov 2022 → 13 Nov 2022 https://sjdm.org/programs/2022-program.pdf |
Conference
Conference | Society for Judgment and Decision Making - Annual Conference 2022 |
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Country/Territory | United States |
City | San Diego |
Period | 10/11/22 → 13/11/22 |
Internet address |
JEL classifications
- d87 - Neuroeconomics
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The functional relevance of right DLPFC and VMPFC in risk-taking behavior
Elias Caldeira Dantas, A. (Creator), Mendeley Data, 20 Oct 2022
DOI: 10.17632/vwzz3dt3pf.2, https://data.mendeley.com/datasets/vwzz3dt3pf
Dataset/Software: Dataset