Behavioral variant frontotemporal dementia as a model for understanding the cognitive and cerebral determinants of verbal creativity

Behavioral variant frontotemporal dementia as a model for understanding the cognitive and cerebral determinants of verbal creativity

Abstract Background Although creativity is an essential cognitive function to adapt to an ever-changing world, its neurocognitive and cerebral bases still need clarification. Current models highlight the interaction between associative and executive processes underpinned by the default mode (DMN), e...

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Main Authors: Victor Altmayer, Marcela Ovando-Tellez, Théophile Bieth, Bénédicte Batrancourt, Armelle Rametti-Lacroux, Lucy Bernardaud, Sarah Moreno-Rodriguez, Lucie Vigreux, Vincent Ledu, Béatrice Garcin, Raffaella Migliaccio, Isabelle Le Ber, Alizée Lopez-Persem, Richard Levy, Emmanuelle Volle, ECOCAPTURE study group
Format: Article
Language:English
Published: BMC 2025-08-01
Series:Behavioral and Brain Functions
Subjects:
Creativity
Remote thinking
Semantic associations
Executive functions
Frontotemporal dementia
Voxel-based morphometry
Online Access:https://doi.org/10.1186/s12993-025-00292-z
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Summary:Abstract Background Although creativity is an essential cognitive function to adapt to an ever-changing world, its neurocognitive and cerebral bases still need clarification. Current models highlight the interaction between associative and executive processes underpinned by the default mode (DMN), executive control (ECN) and salience networks (SN). Furthermore, recent neuroimaging studies highlight the key role of the prefrontal cortex (PFC), located at the crossroads of these networks. Hence, behavioral variant frontotemporal dementia (bvFTD), characterized by progressive neurodegeneration principally impacting the prefrontal cortex and the intrinsic connectivity of these three creativity-related networks, represents a unique model to study creativity. In this study involving 14 bvFTD patients and 20 matched controls, we used a simple word-to-word association task (FGAT) to explore the specific cognitive processes involved in remote thinking, i.e., the production of creative semantic associations. Using voxel-based morphometry, we uncovered critical brain regions for each component and then characterized these regions’ intrinsic connectivity profiles using resting-state functional connectivity in healthy controls. Results We dissociated four key cognitive components underlying remote thinking: spontaneous associative thinking, inhibition of unoriginal responses, intentional remote associative thinking, and verbal initiation; and replicated them in three independent datasets. Spontaneous associative thinking relied on temporal and cerebellar regions involved in low-order and automatic semantic processing, connected with the DMN, ECN and SN. Inhibition of prepotent unoriginal responses depended on key nodes of the SN. The ability to intentionally generate remote semantic associations was underpinned by key regions of the DMN. Finally, initiation of verbal responses relied on the right dorsolateral PFC, connected to the ECN. BvFTD patients were impaired in the last three components. Two components, cognitive inhibition and intentional remote thinking, mediated the link between atrophy in critical regions and an independent measure of creative abilities. Conclusions These findings advance our understanding of creative neurocognition, distinguishing components of creative thinking and clarifying their critical cerebral bases, and participate in the characterization of creativity impairment in patients with bvFTD.
ISSN:1744-9081

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