Neuronal generator patterns of olfactory event-related brain potentials in schizophrenia

Jürgen Kayser; Craig E. Tenke; Dolores Malaspina; Christopher J. Kroppmann; Jennifer D. Schaller; Andrew Deptula; Nathan A. Gates; Jill M. Harkavy-Friedman; Roberto Gil; Gerard E. Bruder

doi:10.1111/j.1469-8986.2010.01013.x

Neuronal generator patterns of olfactory event-related brain potentials in schizophrenia

Jürgen Kayser, Craig E. Tenke, Dolores Malaspina, Christopher J. Kroppmann, Jennifer D. Schaller, Andrew Deptula, Nathan A. Gates, Jill M. Harkavy-Friedman, Roberto Gil, Gerard E. Bruder

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

17 Scopus citations

Abstract

To better characterize neurophysiologic processes underlying olfactory dysfunction in schizophrenia, nose-referenced 30-channel electroencephalogram was recorded from 32 patients and 35 healthy adults (18 and 18 male) during detection of hydrogen sulfide (constant-flow olfactometer, 200 ms unirhinal exposure). Event-related potentials (ERPs) were transformed to reference-free current source density (CSD) waveforms and analyzed by unrestricted Varimax-PCA. Participants indicated when they perceived a high (10 ppm) or low (50% dilution) odor concentration. Patients and controls did not differ in detection of high (23% misses) and low (43%) intensities and also had similar olfactory ERP waveforms. CSDs showed a greater bilateral frontotemporal N1 sink (305 ms) and mid-parietal P2 source (630 ms) for high than low intensities. N1 sink and P2 source were markedly reduced in patients for high intensity stimuli, providing further neurophysiological evidence of olfactory dysfunction in schizophrenia.

Original language	English
Pages (from-to)	1075-1086
Number of pages	12
Journal	Psychophysiology
Volume	47
Issue number	6
DOIs	https://doi.org/10.1111/j.1469-8986.2010.01013.x
State	Published - Nov 2010
Externally published	Yes

Keywords

CSD
Current source density
ERP
Event-related potential
Olfaction
PCA
Principal components analysis
Schizophrenia
Surface Laplacian

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10.1111/j.1469-8986.2010.01013.x

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title = "Neuronal generator patterns of olfactory event-related brain potentials in schizophrenia",

abstract = "To better characterize neurophysiologic processes underlying olfactory dysfunction in schizophrenia, nose-referenced 30-channel electroencephalogram was recorded from 32 patients and 35 healthy adults (18 and 18 male) during detection of hydrogen sulfide (constant-flow olfactometer, 200 ms unirhinal exposure). Event-related potentials (ERPs) were transformed to reference-free current source density (CSD) waveforms and analyzed by unrestricted Varimax-PCA. Participants indicated when they perceived a high (10 ppm) or low (50\% dilution) odor concentration. Patients and controls did not differ in detection of high (23\% misses) and low (43\%) intensities and also had similar olfactory ERP waveforms. CSDs showed a greater bilateral frontotemporal N1 sink (305 ms) and mid-parietal P2 source (630 ms) for high than low intensities. N1 sink and P2 source were markedly reduced in patients for high intensity stimuli, providing further neurophysiological evidence of olfactory dysfunction in schizophrenia.",

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author = "J{\"u}rgen Kayser and Tenke, \{Craig E.\} and Dolores Malaspina and Kroppmann, \{Christopher J.\} and Schaller, \{Jennifer D.\} and Andrew Deptula and Gates, \{Nathan A.\} and Harkavy-Friedman, \{Jill M.\} and Roberto Gil and Bruder, \{Gerard E.\}",

year = "2010",

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doi = "10.1111/j.1469-8986.2010.01013.x",

language = "English",

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AU - Tenke, Craig E.

AU - Malaspina, Dolores

AU - Kroppmann, Christopher J.

AU - Schaller, Jennifer D.

AU - Deptula, Andrew

AU - Gates, Nathan A.

AU - Harkavy-Friedman, Jill M.

AU - Gil, Roberto

AU - Bruder, Gerard E.

PY - 2010/11

Y1 - 2010/11

N2 - To better characterize neurophysiologic processes underlying olfactory dysfunction in schizophrenia, nose-referenced 30-channel electroencephalogram was recorded from 32 patients and 35 healthy adults (18 and 18 male) during detection of hydrogen sulfide (constant-flow olfactometer, 200 ms unirhinal exposure). Event-related potentials (ERPs) were transformed to reference-free current source density (CSD) waveforms and analyzed by unrestricted Varimax-PCA. Participants indicated when they perceived a high (10 ppm) or low (50% dilution) odor concentration. Patients and controls did not differ in detection of high (23% misses) and low (43%) intensities and also had similar olfactory ERP waveforms. CSDs showed a greater bilateral frontotemporal N1 sink (305 ms) and mid-parietal P2 source (630 ms) for high than low intensities. N1 sink and P2 source were markedly reduced in patients for high intensity stimuli, providing further neurophysiological evidence of olfactory dysfunction in schizophrenia.

AB - To better characterize neurophysiologic processes underlying olfactory dysfunction in schizophrenia, nose-referenced 30-channel electroencephalogram was recorded from 32 patients and 35 healthy adults (18 and 18 male) during detection of hydrogen sulfide (constant-flow olfactometer, 200 ms unirhinal exposure). Event-related potentials (ERPs) were transformed to reference-free current source density (CSD) waveforms and analyzed by unrestricted Varimax-PCA. Participants indicated when they perceived a high (10 ppm) or low (50% dilution) odor concentration. Patients and controls did not differ in detection of high (23% misses) and low (43%) intensities and also had similar olfactory ERP waveforms. CSDs showed a greater bilateral frontotemporal N1 sink (305 ms) and mid-parietal P2 source (630 ms) for high than low intensities. N1 sink and P2 source were markedly reduced in patients for high intensity stimuli, providing further neurophysiological evidence of olfactory dysfunction in schizophrenia.

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KW - Current source density

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KW - Event-related potential

KW - Olfaction

KW - PCA

KW - Principal components analysis

KW - Schizophrenia

KW - Surface Laplacian

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M3 - Article

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JO - Psychophysiology

JF - Psychophysiology

IS - 6

ER -

Neuronal generator patterns of olfactory event-related brain potentials in schizophrenia

Abstract

Keywords

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