Disgust and happiness recognition correlate with anteroventral insula and amygdala volume respectively in preclinical Huntington's disease
Disgust and happiness recognition correlate with anteroventral insula and amygdala volume respectively in preclinical Huntington's disease
Patients with Huntington's disease (HD) can show disproportionate impairments in recognizing facial signals of disgust, but the neural basis of this deficit remains unclear. Functional imaging studies have implicated the anterior insula in the ability to recognize disgust, but have identified other structures as well, including the basal ganglia. In view of variable insula and basal ganglia volume changes in HD, we used voxel-based morphometry to map regional variations in gray matter (GM) volume in participants carrying the mutation for HD, and correlated this with their performance on a test of facial emotion recognition for six basic emotions (disgust, fear, anger, happiness, sadness, surprise). The volume of the anteroventral insula was strongly correlated with performance on the disgust recognition task. The amygdala volume (bilaterally) correlated with the ability to recognize happy facial expressions. There was marked specificity of the regional correlations for the emotion involved. Recognition of other emotion expressions, or more general cognitive or motor performance as measured by a standardized rating scale, did not correlate with regional brain volume in this group. Control participants showed no effect for any measure. The strong linear correlations for disgust and happiness recognition imply direct involvement of the anterior insula in disgust appreciation, and a similar role for the amygdala in recognizing happy facial expressions. The absence of a significant correlation with the basal ganglia suggests a less critical role for these structures in disgust recognition than has previously been suggested. The findings also highlight the role of neurodegenerative diseases combined with statistical imaging techniques in elucidating the brain basis of behavior and cognition.
1206–1217
Kipps, C.M.
e43be016-2dc2-45e6-9a02-ab2a0e0208d5
Duggins, A.J.
68268591-6bd1-4417-a56f-c5ea024a5fdb
McCusker, E.A.
7975077a-ffa0-49eb-95e9-1a8360c1ce89
Calder, A.J.
7e520a50-2877-4625-b7e5-c2486b232bc2
1 July 2007
Kipps, C.M.
e43be016-2dc2-45e6-9a02-ab2a0e0208d5
Duggins, A.J.
68268591-6bd1-4417-a56f-c5ea024a5fdb
McCusker, E.A.
7975077a-ffa0-49eb-95e9-1a8360c1ce89
Calder, A.J.
7e520a50-2877-4625-b7e5-c2486b232bc2
Kipps, C.M., Duggins, A.J., McCusker, E.A. and Calder, A.J.
(2007)
Disgust and happiness recognition correlate with anteroventral insula and amygdala volume respectively in preclinical Huntington's disease.
Journal of Cognitive Neuroscience, 19 (7), .
(doi:10.1162/jocn.2007.19.7.1206).
Abstract
Patients with Huntington's disease (HD) can show disproportionate impairments in recognizing facial signals of disgust, but the neural basis of this deficit remains unclear. Functional imaging studies have implicated the anterior insula in the ability to recognize disgust, but have identified other structures as well, including the basal ganglia. In view of variable insula and basal ganglia volume changes in HD, we used voxel-based morphometry to map regional variations in gray matter (GM) volume in participants carrying the mutation for HD, and correlated this with their performance on a test of facial emotion recognition for six basic emotions (disgust, fear, anger, happiness, sadness, surprise). The volume of the anteroventral insula was strongly correlated with performance on the disgust recognition task. The amygdala volume (bilaterally) correlated with the ability to recognize happy facial expressions. There was marked specificity of the regional correlations for the emotion involved. Recognition of other emotion expressions, or more general cognitive or motor performance as measured by a standardized rating scale, did not correlate with regional brain volume in this group. Control participants showed no effect for any measure. The strong linear correlations for disgust and happiness recognition imply direct involvement of the anterior insula in disgust appreciation, and a similar role for the amygdala in recognizing happy facial expressions. The absence of a significant correlation with the basal ganglia suggests a less critical role for these structures in disgust recognition than has previously been suggested. The findings also highlight the role of neurodegenerative diseases combined with statistical imaging techniques in elucidating the brain basis of behavior and cognition.
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Published date: 1 July 2007
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Local EPrints ID: 489368
URI: http://eprints.soton.ac.uk/id/eprint/489368
ISSN: 0898-929X
PURE UUID: 6d2e7e68-fea1-45c9-8865-99a25c30281e
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Date deposited: 23 Apr 2024 16:31
Last modified: 24 Apr 2024 01:56
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Author:
C.M. Kipps
Author:
A.J. Duggins
Author:
E.A. McCusker
Author:
A.J. Calder
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