Reference code: | PT/FB/BL-2018-306.05 |
Location: | BF-GMS
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Title:
| A chronometric relationship between circuits underlying learning and error monitoring in the basal ganglia and salience network
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Publication year: | 2024
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URL:
| https://doi.org/10.1162/imag_a_00343
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Abstract/Results: | ABSTRACT:
Healthy individuals readily adjust their behaviour in response to errors using learning mechanisms. This raises the question of how error-related neural mechanisms underlie the learning process and its progress.
In this study, 21 healthy participants performed a challenging functional magnetic resonance imaging (fMRI) task to answer this question. We assessed the evolution of error-related neural response as a function of learning progress. We tested the hypothesis that the dorsal anterior cingulate cortex (dACC) and anterior insula, key regions of the error monitoring neural circuitry, reflect both the performance of an action and its improvement. Given the nature of trial-and-error learning, we also expected an involvement of the striatum, particularly the putamen.
We found that error-related neural activity (in the dACC and anterior insula) was similar following correct responses and errors in an initial learning period. However, as learning progressed, the activity continuously decreased in response to correct events and increased after errors. In opposition, during the initial learning phase, the putamen activity was modulated by errors, but, as it progressed, this region became unaffected by response outcomes.
In sum, our study provides neural evidence for an interaction between the mechanisms underlying error monitoring and learning, contributing to clarifying how error-related neural responses evolve with learning.
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Accessibility: | Document exists in file
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Language:
| eng
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Author:
| Dias, C.
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Secondary author(s):
| Sousa, T., Castelo-Branco, M.
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Document type:
| Article
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Number of reproductions:
| 1
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Reference:
| Dias, C., Sousa, T., & Castelo-Branco, M. (2024). A chronometric relationship between circuits underlying learning and error monitoring in the basal ganglia and salience network. Imaging Neuroscience, Advance Publication. https://doi.org/10.1162/imag_a_00343
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Impact factor notes: | Expected to be indexed in 2024
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Indexed document: | No
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Keywords: | Error monitoring / Learning / dACC / Anterior insula / Putamen
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A chronometric relationship between circuits underlying learning and error monitoring in the basal ganglia and salience network |