The neural basis of conceptual knowledge retrieval: insights from fMRI & TMS in the healthy human brain
Conceptual knowledge about objects, people and events in the world is central to human cognition, underlying core cognitive abilities such as object recognition and use, and word comprehension. Previous research indicates that concepts consist of perceptual and motor features represented in modality...
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| Format: | Abschlussarbeit Elektronisch E-Book |
| Sprache: | English |
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| Zusammenfassung: | Conceptual knowledge about objects, people and events in the world is central to human cognition, underlying core cognitive abilities such as object recognition and use, and word comprehension. Previous research indicates that concepts consist of perceptual and motor features represented in modality-specific perceptual-motor brain regions. In addition, cross-modal convergence zones integrate modality-specific features into more abstract conceptual representations. However, several questions remain open: First, to what extent does the retrieval of perceptual-motor features depend on the concurrent task? Second, how do modality-specific and cross-modal regions interact during conceptual knowledge retrieval? Third, which brain regions are causally relevant for conceptually-guided behavior? This thesis addresses these three key issues using functional magnetic resonance imaging (fMRI) and transcranial magnetic stimulation (TMS) in the healthy human brain. Study 1 - an fMRI activation study - tested to what extent the retrieval of sound and action features of concepts, and the resulting engagement of auditory and somatomotor brain regions depend on the concurrent task. 40 healthy human participants performed three different tasks - lexical decision, sound judgment, and action judgment - on words with a high or low association to sounds and actions. We found that modality-specific regions selectively respond to task-relevant features: Auditory regions selectively responded to sound features during sound judgments, and somatomotor regions selectively responded to action features during action judgments. Unexpectedly, several regions (e.g. the left posterior parietal cortex; PPC) exhibited a task-dependent response to both sound and action features. We propose these regions to be "multimodal", and not "amodal", convergence zones which retain modality-specific information. Study 2 - an fMRI connectivity study - investigated the functional interaction between modality-specific and multimodal areas during conceptual knowledge retrieval. Using the above fMRI data, we asked (1) whether modality-specific and multimodal regions are functionally coupled during sound and action feature retrieval, (2) whether their coupling depends on the task, (3) whether information flows bottom-up, top-down, or bidirectionally, and (4) whether their coupling is behaviorally relevant. We found that functional coupling between multimodal and modality-specific areas is task-dependent, bidirectional, and relevant for conceptually-guided behavior. Left PPC acted as a connectivity "switchboard" that flexibly adapted its coupling to task-relevant modality-specific nodes. Hence, neuroimaging studies 1 and 2 suggested a key role of left PPC as a multimodal convergence zone for conceptual knowledge. However, as neuroimaging is correlational, it remained unknown whether left PPC plays a causal role as a multimodal conceptual hub. Therefore, study 3 - a TMS study - tested the causal relevance of left PPC for sound and action feature retrieval. We found that TMS over left PPC selectively impaired action judgments on low sound-low action words, as compared to sham stimulation. Computational simulations of the TMS-induced electrical field revealed that stronger stimulation of left PPC was associated with worse performance on action, but not sound, judgments. These results indicate that left PPC causally supports conceptual processing when action knowledge is task-relevant and cannot be compensated by sound knowledge. Our findings suggest that left PPC is specialized for action knowledge, challenging the view of left PPC as a multimodal conceptual hub. Overall, our studies support "hybrid theories" which posit that conceptual processing involves both modality-specific perceptual-motor regions and cross-modal convergence zones. In our new model of the conceptual system, we propose conceptual processing to rely on a representational hierarchy from modality-specific to multimodal up to amodal brain regions. Crucially, this hierarchical system is flexible, with different regions and connections being engaged in a task-dependent fashion. Our model not only reconciles the seemingly opposing grounded cognition and amodal theories, it also incorporates task dependency of conceptually-related brain activity and connectivity, thereby resolving several current issues on the neural basis of conceptual knowledge retrieval. |
| Beschreibung: | 1 Online-Ressource (133 Seiten, 40527 KB) Illustrationen, Diagramme |
| DOI: | 10.25932/publishup-51441 |
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| 520 | 3 | |a Conceptual knowledge about objects, people and events in the world is central to human cognition, underlying core cognitive abilities such as object recognition and use, and word comprehension. Previous research indicates that concepts consist of perceptual and motor features represented in modality-specific perceptual-motor brain regions. In addition, cross-modal convergence zones integrate modality-specific features into more abstract conceptual representations. However, several questions remain open: First, to what extent does the retrieval of perceptual-motor features depend on the concurrent task? Second, how do modality-specific and cross-modal regions interact during conceptual knowledge retrieval? Third, which brain regions are causally relevant for conceptually-guided behavior? This thesis addresses these three key issues using functional magnetic resonance imaging (fMRI) and transcranial magnetic stimulation (TMS) in the healthy human brain. Study 1 - an fMRI activation study - tested to what extent the retrieval of sound and action features of concepts, and the resulting engagement of auditory and somatomotor brain regions depend on the concurrent task. 40 healthy human participants performed three different tasks - lexical decision, sound judgment, and action judgment - on words with a high or low association to sounds and actions. We found that modality-specific regions selectively respond to task-relevant features: Auditory regions selectively responded to sound features during sound judgments, and somatomotor regions selectively responded to action features during action judgments. Unexpectedly, several regions (e.g. the left posterior parietal cortex; PPC) exhibited a task-dependent response to both sound and action features. We propose these regions to be "multimodal", and not "amodal", convergence zones which retain modality-specific information. | |
| 520 | 3 | |a Study 2 - an fMRI connectivity study - investigated the functional interaction between modality-specific and multimodal areas during conceptual knowledge retrieval. Using the above fMRI data, we asked (1) whether modality-specific and multimodal regions are functionally coupled during sound and action feature retrieval, (2) whether their coupling depends on the task, (3) whether information flows bottom-up, top-down, or bidirectionally, and (4) whether their coupling is behaviorally relevant. We found that functional coupling between multimodal and modality-specific areas is task-dependent, bidirectional, and relevant for conceptually-guided behavior. Left PPC acted as a connectivity "switchboard" that flexibly adapted its coupling to task-relevant modality-specific nodes. Hence, neuroimaging studies 1 and 2 suggested a key role of left PPC as a multimodal convergence zone for conceptual knowledge. However, as neuroimaging is correlational, it remained unknown whether left PPC plays a causal role as a multimodal conceptual hub. Therefore, study 3 - a TMS study - tested the causal relevance of left PPC for sound and action feature retrieval. We found that TMS over left PPC selectively impaired action judgments on low sound-low action words, as compared to sham stimulation. Computational simulations of the TMS-induced electrical field revealed that stronger stimulation of left PPC was associated with worse performance on action, but not sound, judgments. These results indicate that left PPC causally supports conceptual processing when action knowledge is task-relevant and cannot be compensated by sound knowledge. Our findings suggest that left PPC is specialized for action knowledge, challenging the view of left PPC as a multimodal conceptual hub. Overall, our studies support "hybrid theories" which posit that conceptual processing involves both modality-specific perceptual-motor regions and cross-modal convergence zones. | |
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| spelling | Kuhnke, Philipp Verfasser (DE-588)1242734201 aut The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain Philipp Kuhnke ; Gutachter: Gesa Hartwigsen, Katja Biermann-Ruben ; Betreuer: Angela D. Friederici, Gesa Hartwigsen Die neuronale Basis der Konzeptverarbeitung: Einblicke durch fMRT & TMS im gesunden menschlichen Gehirn Potsdam [2021?] 1 Online-Ressource (133 Seiten, 40527 KB) Illustrationen, Diagramme txt rdacontent c rdamedia cr rdacarrier Dissertation Universität Potsdam 2021 Conceptual knowledge about objects, people and events in the world is central to human cognition, underlying core cognitive abilities such as object recognition and use, and word comprehension. Previous research indicates that concepts consist of perceptual and motor features represented in modality-specific perceptual-motor brain regions. In addition, cross-modal convergence zones integrate modality-specific features into more abstract conceptual representations. However, several questions remain open: First, to what extent does the retrieval of perceptual-motor features depend on the concurrent task? Second, how do modality-specific and cross-modal regions interact during conceptual knowledge retrieval? Third, which brain regions are causally relevant for conceptually-guided behavior? This thesis addresses these three key issues using functional magnetic resonance imaging (fMRI) and transcranial magnetic stimulation (TMS) in the healthy human brain. Study 1 - an fMRI activation study - tested to what extent the retrieval of sound and action features of concepts, and the resulting engagement of auditory and somatomotor brain regions depend on the concurrent task. 40 healthy human participants performed three different tasks - lexical decision, sound judgment, and action judgment - on words with a high or low association to sounds and actions. We found that modality-specific regions selectively respond to task-relevant features: Auditory regions selectively responded to sound features during sound judgments, and somatomotor regions selectively responded to action features during action judgments. Unexpectedly, several regions (e.g. the left posterior parietal cortex; PPC) exhibited a task-dependent response to both sound and action features. We propose these regions to be "multimodal", and not "amodal", convergence zones which retain modality-specific information. Study 2 - an fMRI connectivity study - investigated the functional interaction between modality-specific and multimodal areas during conceptual knowledge retrieval. Using the above fMRI data, we asked (1) whether modality-specific and multimodal regions are functionally coupled during sound and action feature retrieval, (2) whether their coupling depends on the task, (3) whether information flows bottom-up, top-down, or bidirectionally, and (4) whether their coupling is behaviorally relevant. We found that functional coupling between multimodal and modality-specific areas is task-dependent, bidirectional, and relevant for conceptually-guided behavior. Left PPC acted as a connectivity "switchboard" that flexibly adapted its coupling to task-relevant modality-specific nodes. Hence, neuroimaging studies 1 and 2 suggested a key role of left PPC as a multimodal convergence zone for conceptual knowledge. However, as neuroimaging is correlational, it remained unknown whether left PPC plays a causal role as a multimodal conceptual hub. Therefore, study 3 - a TMS study - tested the causal relevance of left PPC for sound and action feature retrieval. We found that TMS over left PPC selectively impaired action judgments on low sound-low action words, as compared to sham stimulation. Computational simulations of the TMS-induced electrical field revealed that stronger stimulation of left PPC was associated with worse performance on action, but not sound, judgments. These results indicate that left PPC causally supports conceptual processing when action knowledge is task-relevant and cannot be compensated by sound knowledge. Our findings suggest that left PPC is specialized for action knowledge, challenging the view of left PPC as a multimodal conceptual hub. Overall, our studies support "hybrid theories" which posit that conceptual processing involves both modality-specific perceptual-motor regions and cross-modal convergence zones. In our new model of the conceptual system, we propose conceptual processing to rely on a representational hierarchy from modality-specific to multimodal up to amodal brain regions. Crucially, this hierarchical system is flexible, with different regions and connections being engaged in a task-dependent fashion. Our model not only reconciles the seemingly opposing grounded cognition and amodal theories, it also incorporates task dependency of conceptually-related brain activity and connectivity, thereby resolving several current issues on the neural basis of conceptual knowledge retrieval. Enthält Zusammenfassungen in englischer und deutscher Sprache (DE-588)4113937-9 Hochschulschrift gnd-content Friederici, Angela D. 1952- (DE-588)121169294 dgs Hartwigsen, Gesa 1981- (DE-588)141787465 dgs Biermann-Ruben, Katja dgs Universität Potsdam (DE-588)2120681-8 dgg Potsdam (DE-588)4046948-7 gnd uvp Erscheint auch als Druck-Ausgabe https://doi.org/10.25932/publishup-51441 2021-10-06 Resolving-System kostenfrei Volltext https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-514414 2021-10-06 Resolving-System kostenfrei Volltext https://d-nb.info/1240760418/34 2021-10-06 Langzeitarchivierung Nationalbibliothek kostenfrei Volltext application/pdf https://publishup.uni-potsdam.de/frontdoor/index/index/docId/51441 2021-10-06 Verlag kostenfrei Volltext |
| spellingShingle | Kuhnke, Philipp The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain |
| subject_GND | (DE-588)4113937-9 |
| title | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain |
| title_alt | Die neuronale Basis der Konzeptverarbeitung: Einblicke durch fMRT & TMS im gesunden menschlichen Gehirn |
| title_auth | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain |
| title_exact_search | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain |
| title_exact_search_txtP | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain |
| title_full | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain Philipp Kuhnke ; Gutachter: Gesa Hartwigsen, Katja Biermann-Ruben ; Betreuer: Angela D. Friederici, Gesa Hartwigsen |
| title_fullStr | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain Philipp Kuhnke ; Gutachter: Gesa Hartwigsen, Katja Biermann-Ruben ; Betreuer: Angela D. Friederici, Gesa Hartwigsen |
| title_full_unstemmed | The neural basis of conceptual knowledge retrieval insights from fMRI & TMS in the healthy human brain Philipp Kuhnke ; Gutachter: Gesa Hartwigsen, Katja Biermann-Ruben ; Betreuer: Angela D. Friederici, Gesa Hartwigsen |
| title_short | The neural basis of conceptual knowledge retrieval |
| title_sort | the neural basis of conceptual knowledge retrieval insights from fmri tms in the healthy human brain |
| title_sub | insights from fMRI & TMS in the healthy human brain |
| topic_facet | Hochschulschrift |
| url | https://doi.org/10.25932/publishup-51441 https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-514414 https://d-nb.info/1240760418/34 https://publishup.uni-potsdam.de/frontdoor/index/index/docId/51441 |
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