<p>Acute alcohol consumption impairs anger regulation by disrupting prefrontal cortical activity. We tested whether transcranial direct current stimulation (tDCS) over the right ventrolateral prefrontal cortex (rVLPFC) reduces anger in intoxicated vs. sober participants during instructed regulation of recalled anger. One hundred ninety-six healthy adults consumed alcohol or no beverage and received anodal or sham tDCS over the rVLPFC. During stimulation, participants used cognitive reappraisal, distraction, or rumination to regulate recalled anger. As expected, anger was lowest after distraction, intermediate after reappraisal, and highest after rumination. Contrary to predictions, there were no main effects of alcohol, stimulation, or their interaction. Exploratory analyses indicated that among intoxicated participants high in trait anger, anodal stimulation reduced anger following rumination compared to sham. Alcohol also amplified anger in individuals prone to angry rumination. These findings highlight the need for replication and refinement of tDCS protocols to better target intoxicated anger regulation.</p>

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Transcranial direct current stimulation over the ventrolateral prefrontal cortex in intoxicated individuals during anger regulation

  • Elizabeth Summerell,
  • Julia Bradley,
  • Kavya Thalody,
  • Kirsten Ford,
  • Gadi Gilam,
  • Paolo Riva,
  • Thomas F. Denson

摘要

Acute alcohol consumption impairs anger regulation by disrupting prefrontal cortical activity. We tested whether transcranial direct current stimulation (tDCS) over the right ventrolateral prefrontal cortex (rVLPFC) reduces anger in intoxicated vs. sober participants during instructed regulation of recalled anger. One hundred ninety-six healthy adults consumed alcohol or no beverage and received anodal or sham tDCS over the rVLPFC. During stimulation, participants used cognitive reappraisal, distraction, or rumination to regulate recalled anger. As expected, anger was lowest after distraction, intermediate after reappraisal, and highest after rumination. Contrary to predictions, there were no main effects of alcohol, stimulation, or their interaction. Exploratory analyses indicated that among intoxicated participants high in trait anger, anodal stimulation reduced anger following rumination compared to sham. Alcohol also amplified anger in individuals prone to angry rumination. These findings highlight the need for replication and refinement of tDCS protocols to better target intoxicated anger regulation.