Abstract
Problem-solving is essential for advances in cultural, social, and scientific knowledge. It is also one of the most challenging cognitive processes to facilitate. Some problem-solving is deliberate, but frequently people solve problems with a sudden insight, also known as a Eureka or “Aha!” moment. The advantage of solving problems via insight is that these solutions are more accurate, relying on a unique pattern of neural activity, compared to deliberative strategies. The right Anterior Temporal Lobe (rATL), putatively involved in semantic integration, is distinctively activated when people experience an insight. The rATL may contribute to the recognition of distant semantic relations that support insight solutions, although fMRI and EEG evidence for its involvement is, by nature, correlational. In this study, we investigate if focal sub-threshold neuromodulation to the rATL facilitates insight problem-solving. In three different groups, using a within- and between-subjects design, we tested the causal role of this brain region in problem-solving, by applying High Definition Transcranial Direct Current Stimulation to the rATL (active and sham condition) or the left frontopolar region while participants attempted to solve Compound Remote Associates problems before, during and after stimulation. Participants solved a higher percentage of problems, overall, and specifically by insight when they received rATL stimulation, compared to pre-stimulation, and compared to sham and left frontopolar stimulation. These results confirm the crucial role played by the rATL in insight problem-solving.
Highlights
Problem-solving is essential for advances in cultural, social, and scientific knowledge
When people attempt to solve Compound Remote Associate (CRA) problems, they recognize solutions more quickly when the solution-related information is presented in the left visual hemifield, suggesting that information processes in the right hemisphere play an essential role in problem-solving
We evaluated whether the right Anterior Temporal Lobe (rATL) has a causal role in problem-solving by testing the effects of HD transcranial Direct Current Stimulation (tDCS) over the rATL and the left frontopolar cortex (lFPC) in problem-solving using a between- and within-subjects experimental design
Summary
Problem-solving is essential for advances in cultural, social, and scientific knowledge. Www.nature.com/scientificreports significant only for the CRA task, they suggest the possibility of enhancing insight problem-solving by applying noninvasive brain stimulation over the rATL.
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