Transcranial direct-current stimulation enhances Pavlovian tendencies during intermittent loss of control

• Published in: Frontiers in psychiatry Vol. 14; p. 1164208
• Main Authors: Sedlinská, Terezie, Bolte, Lara, Melsæter, Eirik, Mittner, Matthias, Csifcsák, Gábor
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media 2023; Frontiers Media S.A
• Subjects: controllability; learned helplessness; medial prefrontal cortex; mid-frontal theta power; Pavlovian bias; Psychiatry; tDCS; Pavlovian bias; medial prefrontal cortex; controllability; mid-frontal theta power; tDCS; learned helplessness
• ISSN: 1664-0640; 1664-0640
• DOI: 10.3389/fpsyt.2023.1164208

Pavlovian bias is an innate motivational tendency to approach rewards and remain passive in the face of punishment. The relative reliance on Pavlovian valuation has been found to increase when the perceived control over environmental reinforcers is compromised, leading to behavior resembling learned helplessness (LH). Sixty healthy young adults underwent a Go-NoGo reinforcement learning task and received anodal high-definition transcranial direct current stimulation (HD-tDCS) over the medial prefrontal/dorsal anterior cingulate cortex in our randomized, double-blind, sham- controlled study. Furthermore, we evaluated changes in cue-locked mid-frontal theta power derived from simultaneous electroencephalography (EEG). We hypothesized that active stimulation would reduce Pavlovian bias during manipulation of outcome controllability, and the effect would be accompanied by stronger mid-frontal theta activity, representing arbitration between choice strategies in favor of instrumental relative to Pavlovian valuation. We found a progressive decrease in Pavlovian bias during and after loss of control over feedback. Active HD-tDCS counteracted this effect while not affecting the mid-frontal theta signal. The results were at odds with our hypotheses but also with previous findings reporting LH-like patterns during and after loss of control without brain stimulation. The discrepancy may be related to different protocols for the controllability manipulation. We argue that the subjective evaluation of task controllability is crucial in mediating the balance between Pavlovian and instrumental valuation during reinforcement learning and that the medial prefrontal/dorsal anterior cingulate cortex is a key region in this respect. These findings have implications for understanding the behavioral and neural underpinnings of LH in humans.