Beta-band power modulation in the human amygdala during a Direct Reach arm reaching task

Beta-band power modulation in the human amygdala during a Direct Reach arm reaching task

The human amygdala is primarily known for its involvement in processing emotional and fearful responses, but newer evidence has identified a role for this structure in motor processing. Our lab previously utilized an arm-reaching task and observed significant beta-band (13–30 Hz) modulation in the h...

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Main Authors: Jonathon Cavaleri, Shivani Sundaram, Roberto Martin Del Campo-Vera, Xiecheng Shao, Ryan S. Chung, Miguel Parra, Adith Swarup, Selena Zhang, Alexandra Kammen, Angad Gogia, Xenos Mason, Ryan McGinn, Christi Heck, Charles Y. Liu, Spencer S. Kellis, Brian Lee
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Neuroscience Research
Subjects:
Amygdala
Stereoelectroencephalography (SEEG)
Local field potential (LFP)
Beta-band power
Center-out arm reach task
Non-emotional motor processing
Online Access:http://www.sciencedirect.com/science/article/pii/S0168010225000835
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Summary:The human amygdala is primarily known for its involvement in processing emotional and fearful responses, but newer evidence has identified a role for this structure in motor processing. Our lab previously utilized an arm-reaching task and observed significant beta-band (13–30 Hz) modulation in the hippocampus. Given these results, we sought to characterize the role of beta-band modulation in the amygdala during movement execution in participants with stereoelectroencephalography (SEEG) depth electrodes in the amygdala for seizure localization. We show that 9 of 13 participants (69.2 %) showed decreased beta-band power in the amygdala during the Response (movement execution) phase of an arm-reaching task when compared to Fixation (baseline). Secondary analyses show that there are no statistically significant differences in beta-band modulation between ipsilateral and contralateral implanted electrodes, but there is a small difference between male and female participants. The decrease in beta-band power in the amygdala during the Response phase of a Direct Reach task is consistent with our previous findings in the hippocampus. Our study is the first to report beta-band modulation in the amygdala during motor processing and sets the stage for further studies into the involvement of the amygdala in motor control.
ISSN:0168-0102

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