Cortical sources of the respiratory-related evoked potential.

Andreas Von Leupoldt; Andreas Keil; Pei-Ying S Chan; Margaret M Bradley; Peter J Lang; Paul W Davenport

Cortical sources of the respiratory-related evoked potential.

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Cortical sources of the respiratory-related evoked potential. / Von Leupoldt, Andreas; Keil, Andreas; Chan, Pei-Ying S; Bradley, Margaret M; Lang, Peter J; Davenport, Paul W.

In: RESP PHYSIOL NEUROBI, Vol. 170, No. 2, 2, 2010, p. 198-201.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Von Leupoldt, A, Keil, A, Chan, P-YS, Bradley, MM, Lang, PJ & Davenport, PW 2010, 'Cortical sources of the respiratory-related evoked potential.', RESP PHYSIOL NEUROBI, vol. 170, no. 2, 2, pp. 198-201. <http://www.ncbi.nlm.nih.gov/pubmed/20036344?dopt=Citation>

APA

Von Leupoldt, A., Keil, A., Chan, P-Y. S., Bradley, M. M., Lang, P. J., & Davenport, P. W. (2010). Cortical sources of the respiratory-related evoked potential. RESP PHYSIOL NEUROBI, 170(2), 198-201. [2]. http://www.ncbi.nlm.nih.gov/pubmed/20036344?dopt=Citation

Vancouver

Von Leupoldt A, Keil A, Chan P-YS, Bradley MM, Lang PJ, Davenport PW. Cortical sources of the respiratory-related evoked potential. RESP PHYSIOL NEUROBI. 2010;170(2):198-201. 2.

Bibtex

@article{8835308045c549f2a88b3921f404946d,

title = "Cortical sources of the respiratory-related evoked potential.",

abstract = "The respiratory-related evoked potential (RREP) is increasingly used to study the neural processing of respiratory signals. However, little is known about the cortical origins of early (Nf, P1, N1) and later RREP components (P2, P3). By using high-density EEG, we studied cortical sources of RREP components elicited by short inspiratory occlusions in 18 healthy volunteers (6 female, mean age 20.0+/-1.8 years). Topographical maps for Nf and P1 showed bilateral maximum EEG voltages over the frontal and centro-parietal cortex, respectively. Cortical source analyses (minimum-norm estimates) in addition to topographical maps demonstrated bilateral sensorimotor cortex origins for N1 and P2 which were paralleled by an additional frontal cortex source (p's",

keywords = "Humans, Male, Female, Young Adult, Respiratory Mechanics physiology, Cerebral Cortex physiology, Electroencephalography, Brain Mapping, Parietal Lobe physiology, Evoked Potentials physiology, Inhalation physiology, Humans, Male, Female, Young Adult, Respiratory Mechanics physiology, Cerebral Cortex physiology, Electroencephalography, Brain Mapping, Parietal Lobe physiology, Evoked Potentials physiology, Inhalation physiology",

author = "{Von Leupoldt}, Andreas and Andreas Keil and Chan, {Pei-Ying S} and Bradley, {Margaret M} and Lang, {Peter J} and Davenport, {Paul W}",

year = "2010",

language = "Deutsch",

volume = "170",

pages = "198--201",

journal = "RESP PHYSIOL NEUROBI",

issn = "1569-9048",

publisher = "Elsevier",

number = "2",

}

RIS

TY - JOUR

T1 - Cortical sources of the respiratory-related evoked potential.

AU - Von Leupoldt, Andreas

AU - Keil, Andreas

AU - Chan, Pei-Ying S

AU - Bradley, Margaret M

AU - Lang, Peter J

AU - Davenport, Paul W

PY - 2010

Y1 - 2010

N2 - The respiratory-related evoked potential (RREP) is increasingly used to study the neural processing of respiratory signals. However, little is known about the cortical origins of early (Nf, P1, N1) and later RREP components (P2, P3). By using high-density EEG, we studied cortical sources of RREP components elicited by short inspiratory occlusions in 18 healthy volunteers (6 female, mean age 20.0+/-1.8 years). Topographical maps for Nf and P1 showed bilateral maximum EEG voltages over the frontal and centro-parietal cortex, respectively. Cortical source analyses (minimum-norm estimates) in addition to topographical maps demonstrated bilateral sensorimotor cortex origins for N1 and P2 which were paralleled by an additional frontal cortex source (p's

AB - The respiratory-related evoked potential (RREP) is increasingly used to study the neural processing of respiratory signals. However, little is known about the cortical origins of early (Nf, P1, N1) and later RREP components (P2, P3). By using high-density EEG, we studied cortical sources of RREP components elicited by short inspiratory occlusions in 18 healthy volunteers (6 female, mean age 20.0+/-1.8 years). Topographical maps for Nf and P1 showed bilateral maximum EEG voltages over the frontal and centro-parietal cortex, respectively. Cortical source analyses (minimum-norm estimates) in addition to topographical maps demonstrated bilateral sensorimotor cortex origins for N1 and P2 which were paralleled by an additional frontal cortex source (p's

KW - Humans

KW - Male

KW - Female

KW - Young Adult

KW - Respiratory Mechanics physiology

KW - Cerebral Cortex physiology

KW - Electroencephalography

KW - Brain Mapping

KW - Parietal Lobe physiology

KW - Evoked Potentials physiology

KW - Inhalation physiology

KW - Humans

KW - Male

KW - Female

KW - Young Adult

KW - Respiratory Mechanics physiology

KW - Cerebral Cortex physiology

KW - Electroencephalography

KW - Brain Mapping

KW - Parietal Lobe physiology

KW - Evoked Potentials physiology

KW - Inhalation physiology

M3 - SCORING: Zeitschriftenaufsatz

VL - 170

SP - 198

EP - 201

JO - RESP PHYSIOL NEUROBI

JF - RESP PHYSIOL NEUROBI

SN - 1569-9048

IS - 2

M1 - 2

ER -