Muscle G6pd Deficiency

Conceptual knowledge is central to cognitive abilities such as word comprehension. Previous neuroimaging evidence indicates that concepts are at least partly composed of perceptual and motor features that are represented in the same modality-specific brain regions involved in actual perception and action. However, it is unclear to what extent the retrieval of perceptual–motor features and the resulting engagement of modality-specific regions depend on the concurrent task. To address this issue, we measured brain activity in 40 young and healthy participants using functional magnetic resonance imaging, while they performed three different tasks—lexical decision, sound judgment, and action judgment—on words that independently varied in their association with sounds and actions. We found neural activation for sound and action features of concepts selectively when they were task-relevant in brain regions also activated during auditory and motor tasks, respectively, as well as in higher-level, multimodal regions which were recruited during both sound and action feature retrieval. For the first time, we show that not only modality-specific perceptual–motor areas but also multimodal regions are engaged in conceptual processing in a flexible, task-dependent fashion, responding selectively to task-relevant conceptual features.

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Task-Dependent Functional and Effective Connectivity during Conceptual Processing

Kuhnke

Kiefer

Hartwigsen

2021

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Conceptual knowledge is central to cognition. Previous neuroimaging research indicates that conceptual processing involves both modality-specific perceptual-motor areas and multimodal convergence zones. For example, our previous functional magnetic resonance imaging (fMRI) study revealed that both modality-specific and multimodal regions respond to sound and action features of concepts in a task-dependent fashion (Kuhnke P, Kiefer M, Hartwigsen G. 2020b. Task-dependent recruitment of modality-specific and multimodal regions during conceptual processing. Cereb Cortex. 30:3938–3959.). However, it remains unknown whether and how modality-specific and multimodal areas interact during conceptual tasks. Here, we asked 1) whether multimodal and modality-specific areas are functionally coupled during conceptual processing, 2) whether their coupling depends on the task, 3) whether information flows top-down, bottom-up or both, and 4) whether their coupling is behaviorally relevant. We combined psychophysiological interaction analyses with dynamic causal modeling on the fMRI data of our previous study. We found that functional coupling between multimodal and modality-specific areas strongly depended on the task, involved both top-down and bottom-up information flow, and predicted conceptually guided behavior. Notably, we also found coupling between different modality-specific areas and between different multimodal areas. These results suggest that functional coupling in the conceptual system is extensive, reciprocal, task-dependent, and behaviorally relevant. We propose a new model of the conceptual system that incorporates task-dependent functional interactions between modality-specific and multimodal areas.

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Left posterior inferior frontal gyrus is causally involved in reordering during sentence processing

et al. 2017

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Left posterior inferior parietal cortex causally supports the retrieval of action knowledge

et al. 2020

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Transcranial direct current stimulation (tDCS) facilitates verb learning by altering effective connectivity in the healthy brain

et al. 2018

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The role of the angular gyrus in semantic cognition: a synthesis of five functional neuroimaging studies

et al. 2022

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Semantic knowledge is central to human cognition. The angular gyrus (AG) is widely considered a key brain region for semantic cognition. However, the role of the AG in semantic processing is controversial. Key controversies concern response polarity (activation vs. deactivation) and its relation to task difficulty, lateralization (left vs. right AG), and functional–anatomical subdivision (PGa vs. PGp subregions). Here, we combined the fMRI data of five studies on semantic processing (n = 172) and analyzed the response profiles from the same anatomical regions-of-interest for left and right PGa and PGp. We found that the AG was consistently deactivated during non-semantic conditions, whereas response polarity during semantic conditions was inconsistent. However, the AG consistently showed relative response differences between semantic and non-semantic conditions, and between different semantic conditions. A combined analysis across all studies revealed that AG responses could be best explained by separable effects of task difficulty and semantic processing demand. Task difficulty effects were stronger in PGa than PGp, regardless of hemisphere. Semantic effects were stronger in left than right AG, regardless of subregion. These results suggest that the AG is engaged in both domain-general task-difficulty-related processes and domain-specific semantic processes. In semantic processing, we propose that left AG acts as a “multimodal convergence zone” that binds different semantic features associated with the same concept, enabling efficient access to task-relevant features.

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Meta-analytic evidence for a novel hierarchical model of conceptual processing

Kuhnke

Beaupain

Arola

et al. 2023

Neuroscience & Biobehavioral Reviews

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Perturbation of left posterior prefrontal cortex modulates top-down processing in sentence comprehension

et al. 2018

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Philipp Kuhnke

Task-Dependent Recruitment of Modality-Specific and Multimodal Regions during Conceptual Processing

Task-Dependent Functional and Effective Connectivity during Conceptual Processing

Left posterior inferior frontal gyrus is causally involved in reordering during sentence processing

Left posterior inferior parietal cortex causally supports the retrieval of action knowledge

Transcranial direct current stimulation (tDCS) facilitates verb learning by altering effective connectivity in the healthy brain

The role of the angular gyrus in semantic cognition: a synthesis of five functional neuroimaging studies

Meta-analytic evidence for a novel hierarchical model of conceptual processing

Perturbation of left posterior prefrontal cortex modulates top-down processing in sentence comprehension

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