Elevated Activity in Left Homologous Music Circuits is Maladaptive for Music Perception but Mediated by Decoupled Structure and Function

Music is inherent in human life and is a significant topic of cognitive neuroscience. Previous studies focused on amusia suggested that two frontotemporal circuits engage in music processing. Structure-function coupling is an important feature of human brain, which is associated with cognition and a...

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Hauptverfasser: Wang, Yuchen, Jin, Zhishuai, Huyang, Sizhu, Lian, Qiaoping, Wu, Daxing
Format: Paper
Sprache:Englisch
Veröffentlicht: Cold Spring Harbor Cold Spring Harbor Laboratory Press 04.02.2024
Cold Spring Harbor Laboratory
Ausgabe:1.1
Schlagworte:
Auditory perception
Cerebral hemispheres
Circuits
Cognitive ability
Frontal gyrus
Information processing
Music
Neuromodulation
Neuroplasticity
Neuroscience
Structure-function relationships
Temporal gyrus
contralateral homologous region
regional activity
music perception
structure-function coupling
amusia
ISSN:2692-8205, 2692-8205
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Abstract Music is inherent in human life and is a significant topic of cognitive neuroscience. Previous studies focused on amusia suggested that two frontotemporal circuits engage in music processing. Structure-function coupling is an important feature of human brain, which is associated with cognition and allows for a more sensitive investigation of brain-behavior association. However, we still have limited knowledge about the relation between structure-function coupling, music processing and other regional neural profiles. We recruited 106 participants (43 subjects were diagnosed with congenital amusia) and measured their music perception by Montreal Battery of Evaluation of Amusia (MBEA). Then we utilized support vector regression algorithm and mediation analysis, and employed amplitude of low frequency fluctuation (ALFF), structural/functional degree centrality (DC) and structure-function coupling to explore their relation with global averaged MBEA score. We found structure-function coupling of widespread brain regions in both hemispheres, rather than ALFF or DC, contributed to predict MBEA score. Left middle frontal gyrus, bilateral inferior temporal gyrus and right insula were most predictive regions, and these regions were involved in memory and cognitive control according to meta-analysis. Further, coupling of left middle frontal gyrus, a region that is homologous to and is connected with typical music circuits, fully mediated the negative relation between ALFF and MBEA score. Our findings provide further understanding for the neural basis of music, and have implications for neural plasticity, neuromodulation therapy and cognitive causes of amusia.Competing Interest StatementThe authors have declared no competing interest.
AbstractList Music is inherent in human life and is a significant topic of cognitive neuroscience. Previous studies focused on amusia suggested that two frontotemporal circuits engage in music processing. Structure-function coupling is an important feature of human brain, which is associated with cognition and allows for a more sensitive investigation of brain-behavior association. However, we still have limited knowledge about the relation between structure-function coupling, music processing and other regional neural profiles. We recruited 106 participants (43 subjects were diagnosed with congenital amusia) and measured their music perception by Montreal Battery of Evaluation of Amusia (MBEA). Then we utilized support vector regression algorithm and mediation analysis, and employed amplitude of low frequency fluctuation (ALFF), structural/functional degree centrality (DC) and structure-function coupling to explore their relation with global averaged MBEA score. We found structure-function coupling of widespread brain regions in both hemispheres, rather than ALFF or DC, contributed to predict MBEA score. Left middle frontal gyrus, bilateral inferior temporal gyrus and right insula were most predictive regions, and these regions were involved in memory and cognitive control according to meta-analysis. Further, coupling of left middle frontal gyrus, a region that is homologous to and is connected with typical music circuits, fully mediated the negative relation between ALFF and MBEA score. Our findings provide further understanding for the neural basis of music, and have implications for neural plasticity, neuromodulation therapy and cognitive causes of amusia. Our study first applies structure-function coupling to investigate the neural correlates of music perception, and predicting modeling indicate structure-function coupling is more effective than regional activity and connectivity. Elevated activity of contralateral homologous of music circuits might be maladaptive rather than compensatory. Elevated spontaneous regional activity disrupts their connections, which might be a specific expression of neural plasticity for certain regions. Our findings have implications for cognitive causes (abnormal memory and/or cognitive control to music salients) of amusia.
Music is inherent in human life and is a significant topic of cognitive neuroscience. Previous studies focused on amusia suggested that two frontotemporal circuits engage in music processing. Structure-function coupling is an important feature of human brain, which is associated with cognition and allows for a more sensitive investigation of brain-behavior association. However, we still have limited knowledge about the relation between structure-function coupling, music processing and other regional neural profiles. We recruited 106 participants (43 subjects were diagnosed with congenital amusia) and measured their music perception by Montreal Battery of Evaluation of Amusia (MBEA). Then we utilized support vector regression algorithm and mediation analysis, and employed amplitude of low frequency fluctuation (ALFF), structural/functional degree centrality (DC) and structure-function coupling to explore their relation with global averaged MBEA score. We found structure-function coupling of widespread brain regions in both hemispheres, rather than ALFF or DC, contributed to predict MBEA score. Left middle frontal gyrus, bilateral inferior temporal gyrus and right insula were most predictive regions, and these regions were involved in memory and cognitive control according to meta-analysis. Further, coupling of left middle frontal gyrus, a region that is homologous to and is connected with typical music circuits, fully mediated the negative relation between ALFF and MBEA score. Our findings provide further understanding for the neural basis of music, and have implications for neural plasticity, neuromodulation therapy and cognitive causes of amusia.Competing Interest StatementThe authors have declared no competing interest.
Author Huyang, Sizhu
Jin, Zhishuai
Lian, Qiaoping
Wang, Yuchen
Wu, Daxing
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ContentType Paper
Copyright 2024. Notwithstanding the ProQuest Terms and conditions, you may use this content in accordance with the associated terms available at https://www.biorxiv.org/content/10.1101/2024.02.04.578219v1
2024, Posted by Cold Spring Harbor Laboratory
Copyright_xml – notice: 2024. Notwithstanding the ProQuest Terms and conditions, you may use this content in accordance with the associated terms available at https://www.biorxiv.org/content/10.1101/2024.02.04.578219v1
– notice: 2024, Posted by Cold Spring Harbor Laboratory
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DOI 10.1101/2024.02.04.578219
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Keywords contralateral homologous region
regional activity
music perception
structure-function coupling
amusia
Language English
License The copyright holder for this pre-print is the author. All rights reserved. The material may not be redistributed, re-used or adapted without the author's permission.
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Competing Interest Statement: The authors have declared no competing interest.
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Snippet Music is inherent in human life and is a significant topic of cognitive neuroscience. Previous studies focused on amusia suggested that two frontotemporal...
SourceID biorxiv
proquest
SourceType Open Access Repository
Aggregation Database
SubjectTerms Auditory perception
Cerebral hemispheres
Circuits
Cognitive ability
Frontal gyrus
Information processing
Music
Neuromodulation
Neuroplasticity
Neuroscience
Structure-function relationships
Temporal gyrus
Title Elevated Activity in Left Homologous Music Circuits is Maladaptive for Music Perception but Mediated by Decoupled Structure and Function
URI https://www.proquest.com/docview/2921814074
https://www.biorxiv.org/content/10.1101/2024.02.04.578219
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