Altered global brai

Genevieve J. Yang; John D. Murray; Grega Repovs; Michael W. Cole; Aleksandar Savic; Matthew F. Glasser; Christopher Pittenger; John H. Krystal; Xiao Jing Wang; Godfrey D. Pearlson; David C. Glahn; Alan Anticevic

doi:10.1073/pnas.1405289111

Altered global brai

Genevieve J. Yang, John D. Murray, Grega Repovs, Michael W. Cole, Aleksandar Savic, Matthew F. Glasser, Christopher Pittenger, John H. Krystal, Xiao Jing Wang, Godfrey D. Pearlson, David C. Glahn, Alan Anticevic

Research output: Contribution to journal › Article › peer-review

216 Scopus citations

Abstract

Neuropsychiatric conditions like schizophrenia display a complex neurobiology, which has long been associated with distributed brain dysfunction. However, no investigation has tested whether schizophrenia shows alterations in global brain signal (GS), a signal derived from functional MRI and often discarded as a meaningless baseline in many studies. To evaluate GS alterations associated with schizophrenia, we studied two large chronic patient samples (n = 90, n = 71), comparing them to healthy subjects (n = 220) and patients diagnosed with bipolar disorder (n = 73). We identified and replicated increased cortical power and variance in schizophrenia, an effect predictive of symptoms yet obscured by GS removal. Voxel-wise signal variance was also increased in schizophrenia, independent of GS effects. Both findings were absent in bipolar patients, confirming diagnostic specificity. Biologically informed computational modeling of shared and nonshared signal propagation through the brain suggests that these findings may be explained by altered net strength of overall brain connectivity in schizophrenia.

Original language	English (US)
Pages (from-to)	7438-7443
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	111
Issue number	20
DOIs	https://doi.org/10.1073/pnas.1405289111
State	Published - May 20 2014
Externally published	Yes

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title = "Altered global brai",

abstract = "Neuropsychiatric conditions like schizophrenia display a complex neurobiology, which has long been associated with distributed brain dysfunction. However, no investigation has tested whether schizophrenia shows alterations in global brain signal (GS), a signal derived from functional MRI and often discarded as a meaningless baseline in many studies. To evaluate GS alterations associated with schizophrenia, we studied two large chronic patient samples (n = 90, n = 71), comparing them to healthy subjects (n = 220) and patients diagnosed with bipolar disorder (n = 73). We identified and replicated increased cortical power and variance in schizophrenia, an effect predictive of symptoms yet obscured by GS removal. Voxel-wise signal variance was also increased in schizophrenia, independent of GS effects. Both findings were absent in bipolar patients, confirming diagnostic specificity. Biologically informed computational modeling of shared and nonshared signal propagation through the brain suggests that these findings may be explained by altered net strength of overall brain connectivity in schizophrenia.",

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AU - Murray, John D.

AU - Repovs, Grega

AU - Cole, Michael W.

AU - Savic, Aleksandar

AU - Glasser, Matthew F.

AU - Pittenger, Christopher

AU - Krystal, John H.

AU - Wang, Xiao Jing

AU - Pearlson, Godfrey D.

AU - Glahn, David C.

AU - Anticevic, Alan

PY - 2014/5/20

Y1 - 2014/5/20

N2 - Neuropsychiatric conditions like schizophrenia display a complex neurobiology, which has long been associated with distributed brain dysfunction. However, no investigation has tested whether schizophrenia shows alterations in global brain signal (GS), a signal derived from functional MRI and often discarded as a meaningless baseline in many studies. To evaluate GS alterations associated with schizophrenia, we studied two large chronic patient samples (n = 90, n = 71), comparing them to healthy subjects (n = 220) and patients diagnosed with bipolar disorder (n = 73). We identified and replicated increased cortical power and variance in schizophrenia, an effect predictive of symptoms yet obscured by GS removal. Voxel-wise signal variance was also increased in schizophrenia, independent of GS effects. Both findings were absent in bipolar patients, confirming diagnostic specificity. Biologically informed computational modeling of shared and nonshared signal propagation through the brain suggests that these findings may be explained by altered net strength of overall brain connectivity in schizophrenia.

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Altered global brai

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