TY - JOUR
T1 - Cortical thickness as a contributor to abnormal oscillations in schizophrenia?
AU - Edgar, J. Christopher
AU - Chen, Yu Han
AU - Lanza, Matthew
AU - Howell, Breannan
AU - Chow, Vivian Y.
AU - Heiken, Kory
AU - Liu, Song
AU - Wootton, Cassandra
AU - Hunter, Michael A.
AU - Huang, Mingxiong
AU - Miller, Gregory A.
AU - Cañive, José M.
N1 - Funding Information:
This research was supported by grants from the National Institute of Mental Health ( R01 MH65304 to Dr. José M. Cañive, K08 MH085100 to Dr. J. Christopher Edgar), a VA Merit grant (VA Merit CSR&D: IIR-04-212-3 to Dr. José M. Cañive), and the University of California at San Diego Merit Review Grant from the Department of Veterans Affairs to Dr. Mingxiong Huang. The authors would like to thank the subjects who enrolled in this study and to Megan Schendel, Kim Paulson, and Emerson Epstein, who helped with the data collection, and Lawrence Calais, Gloria Fuldauer, and Nickolas Lemke for their help with subject recruitment and administrative support related to this project.
PY - 2014
Y1 - 2014
N2 - Introduction Although brain rhythms depend on brain structure (e.g., gray and white matter), to our knowledge associations between brain oscillations and structure have not been investigated in healthy controls (HC) or in individuals with schizophrenia (SZ). Observing function-structure relationships, for example establishing an association between brain oscillations (defined in terms of amplitude or phase) and cortical gray matter, might inform models on the origins of psychosis. Given evidence of functional and structural abnormalities in primary/secondary auditory regions in SZ, the present study examined how superior temporal gyrus (STG) structure relates to auditory STG low-frequency and 40 Hz steady-state activity. Given changes in brain activity as a function of age, age-related associations in STG oscillatory activity were also examined. Methods Thirty-nine individuals with SZ and 29 HC were recruited. 40 Hz amplitude-modulated tones of 1 s duration were presented. MEG and T1-weighted sMRI data were obtained. Using the sources localizing 40 Hz evoked steady-state activity (300 to 950 ms), left and right STG total power and inter-trial coherence were computed. Time-frequency group differences and associations with STG structure and age were also examined. Results Decreased total power and inter-trial coherence in SZ were observed in the left STG for initial post-stimulus low-frequency activity (~ 50 to 200 ms, ~ 4 to 16 Hz) as well as 40 Hz steady-state activity (~ 400 to 1000 ms). Left STG 40 Hz total power and inter-trial coherence were positively associated with left STG cortical thickness in HC, not in SZ. Left STG post-stimulus low-frequency and 40 Hz total power were positively associated with age, again only in controls. Discussion Left STG low-frequency and steady-state gamma abnormalities distinguish SZ and HC. Disease-associated damage to STG gray matter in schizophrenia may disrupt the age-related left STG gamma-band function-structure relationships observed in controls.
AB - Introduction Although brain rhythms depend on brain structure (e.g., gray and white matter), to our knowledge associations between brain oscillations and structure have not been investigated in healthy controls (HC) or in individuals with schizophrenia (SZ). Observing function-structure relationships, for example establishing an association between brain oscillations (defined in terms of amplitude or phase) and cortical gray matter, might inform models on the origins of psychosis. Given evidence of functional and structural abnormalities in primary/secondary auditory regions in SZ, the present study examined how superior temporal gyrus (STG) structure relates to auditory STG low-frequency and 40 Hz steady-state activity. Given changes in brain activity as a function of age, age-related associations in STG oscillatory activity were also examined. Methods Thirty-nine individuals with SZ and 29 HC were recruited. 40 Hz amplitude-modulated tones of 1 s duration were presented. MEG and T1-weighted sMRI data were obtained. Using the sources localizing 40 Hz evoked steady-state activity (300 to 950 ms), left and right STG total power and inter-trial coherence were computed. Time-frequency group differences and associations with STG structure and age were also examined. Results Decreased total power and inter-trial coherence in SZ were observed in the left STG for initial post-stimulus low-frequency activity (~ 50 to 200 ms, ~ 4 to 16 Hz) as well as 40 Hz steady-state activity (~ 400 to 1000 ms). Left STG 40 Hz total power and inter-trial coherence were positively associated with left STG cortical thickness in HC, not in SZ. Left STG post-stimulus low-frequency and 40 Hz total power were positively associated with age, again only in controls. Discussion Left STG low-frequency and steady-state gamma abnormalities distinguish SZ and HC. Disease-associated damage to STG gray matter in schizophrenia may disrupt the age-related left STG gamma-band function-structure relationships observed in controls.
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U2 - 10.1016/j.nicl.2013.11.004
DO - 10.1016/j.nicl.2013.11.004
M3 - Article
C2 - 24371794
AN - SCOPUS:84890466282
SN - 2213-1582
VL - 4
SP - 122
EP - 129
JO - NeuroImage: Clinical
JF - NeuroImage: Clinical
ER -