Structural connectivity of an interoception network in schizophrenia
Interoception refers to the processing, integration, and interpretation of bodily signals by the brain. Interoception is key to not only basic survival, but also many cognitive processes, especially motivational and affective functioning. There is emerging evidence suggesting altered interoception in schizophrenia, but its neural underpinning has not been examined. The current study aims to investigate the structural connectivity of a putative interoception network in schizophrenia, and its relationship with affective functioning and clinical symptoms. Thirty-five participants with schizophrenia (SZ) and 36 healthy control participants (HC) underwent diffusion tensor imaging (DTI) and performed tasks measuring emotional functioning. Probabilistic tractography was used to identify white matter tracts connecting the key hubs forming the interoception network (i.e., rostral and caudal anterior cingulate cortex, ventral anterior insula, dorsal mid and posterior insula, and amygdala). Microstructural integrity of these tracts was compared across groups and correlated with measures of emotional functioning and symptom severity. I found that SZ exhibited altered structural connectivity in the putative interoception network, compared to HC. The structural connectivity of the network was correlated with emotion recognition in HC, supporting a link between the interoception network and emotional functioning. However, this correlation was much weaker in SZ, suggesting less reliance on this network. I did not find a correlation between the structural connectivity and clinical symptoms in SZ. These findings suggest that altered interoception may play a role in illness mechanisms of schizophrenia, especially in relation to emotional deficits.
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- In Collections
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Electronic Theses & Dissertations
- Copyright Status
- Attribution-NonCommercial-NoDerivatives 4.0 International
- Material Type
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Theses
- Authors
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Yao, Beier
- Thesis Advisors
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Thakkar, Katharine N.
- Committee Members
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Johnson, Alexander
Moser, Jason
Becker, Mark
- Date
- 2022
- Subjects
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Clinical psychology
Schizophrenia--Physiological aspects
Neurosciences
Interoception
Allostasis
Amygdaloid body
Physiology
Diffusion tensor imaging
- Program of Study
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Psychology - Doctor of Philosophy
- Degree Level
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Doctoral
- Language
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English
- Pages
- vi, 62 pages
- ISBN
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9798837554162
- Permalink
- https://doi.org/doi:10.25335/535z-ap19