Stimulating human prefrontal cortex increases reward learning
Citation
Margot Juliëtte Overman, Verena Sarrazin, Michael Browning, and Jacinta O’Shea. Stimulating human prefrontal cortex increases reward learning. bioRxiv preprint.
Abstract
Work in computational psychiatry suggests that mood disorders may stem from aberrant
reinforcement learning processes. Specifically, it is proposed that depressed individuals believe
that negative events are more informative than positive events, resulting in faster learning from
negative outcomes (Pulcu & Browning, 2019). In this proof-of-concept study, we investigated
whether learning rates for affective outcomes are malleable using transcranial direct current
stimulation (tDCS). Healthy adults completed an established reinforcement learning task
(Pulcu & Browning, 2017) in which the information content of reward and loss outcomes was
manipulated by varying the volatility of stimulus-outcome associations. Learning rates on the
tasks were quantified using computational models. Stimulation over dorsolateral prefrontal
cortex (DLPFC) but not motor cortex (M1) specifically increased learning rates for reward
outcomes. The effects of prefrontal tDCS were cognitive state-dependent: online stimulation
increased learning rates for wins; offline stimulation decreased both win and loss learning rates.
A replication study confirmed the key finding that online tDCS to DLPFC specifically
increased learning rates for rewards relative to losses. Taken together, these findings
demonstrate the potential of tDCS for modulating computational parameters of reinforcement
learning relevant to mood disorders.
Significance statement: Disproportionate learning from negative relative to positive outcomes has been implicated in
the development and maintenance of depression. The present work demonstrates that
transcranial direct current stimulation (tDCS) to dorsolateral prefrontal cortex can specifically
increase learning from positive events in healthy adults. Our results provide preliminary
evidence that non-invasive brain stimulation can be used to shape reinforcement learning,
indicating a potential novel cognitive neurostimulation intervention strategy for affective
disorders.
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