Dyspnea and pain share emotion-related brain network.

Andreas von Leupoldt; Tobias Sommer-Blöchl; Sarah Kegat; Hans Jörg Baumann; Hans Klose; Bernhard Dahme; Christian Büchel

Dyspnea and pain share emotion-related brain network.

Standard

Dyspnea and pain share emotion-related brain network. / von Leupoldt, Andreas; Sommer-Blöchl, Tobias; Kegat, Sarah; Baumann, Hans Jörg; Klose, Hans; Dahme, Bernhard; Büchel, Christian.

in: NEUROIMAGE, 2009.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

von Leupoldt, A, Sommer-Blöchl, T, Kegat, S, Baumann, HJ, Klose, H, Dahme, B & Büchel, C 2009, 'Dyspnea and pain share emotion-related brain network.', NEUROIMAGE. <http://www.ncbi.nlm.nih.gov/pubmed/19527787?dopt=Citation>

APA

von Leupoldt, A., Sommer-Blöchl, T., Kegat, S., Baumann, H. J., Klose, H., Dahme, B., & Büchel, C. (2009). Dyspnea and pain share emotion-related brain network. NEUROIMAGE. http://www.ncbi.nlm.nih.gov/pubmed/19527787?dopt=Citation

Vancouver

von Leupoldt A, Sommer-Blöchl T, Kegat S, Baumann HJ, Klose H, Dahme B et al. Dyspnea and pain share emotion-related brain network. NEUROIMAGE. 2009.

Bibtex

@article{c4c05f606a904f4ea2dcee63ab81e2a1,

title = "Dyspnea and pain share emotion-related brain network.",

abstract = "The early detection of stimuli signalling threat to an organism is a crucial evolutionary advantage. For example, the perception of aversive bodily sensations such as dyspnea and pain strongly motivates fast adaptive behaviour to ensure survival. Their similarly threatening and motivating characters led to the speculation that both sensations are mediated by common brain areas, which has also been suggested by neuroimaging studies on either dyspnea or pain. By using functional magnetic resonance imaging (fMRI), we formally tested this hypothesis and compared the cortical processing of perceived heat pain and resistive load induced dyspnea in the same group of participants. Here we show that the perception of both aversive sensations is processed in similar brain areas including the insula, dorsal anterior cingulate cortex, amygdala and medial thalamus. These areas have a documented role in the processing of emotions such as fear and anxiety. Thus, the current study highlights the role of a common emotion-related human brain network which underlies the perception of aversive bodily sensations such as dyspnea and pain. This network seems crucial for translating the threatening character of different bodily signals into behavioural consequences that promote survival.",

author = "{von Leupoldt}, Andreas and Tobias Sommer-Bl{\"o}chl and Sarah Kegat and Baumann, {Hans J{\"o}rg} and Hans Klose and Bernhard Dahme and Christian B{\"u}chel",

year = "2009",

language = "Deutsch",

journal = "NEUROIMAGE",

issn = "1053-8119",

publisher = "Academic Press",

}

RIS

TY - JOUR

T1 - Dyspnea and pain share emotion-related brain network.

AU - von Leupoldt, Andreas

AU - Sommer-Blöchl, Tobias

AU - Kegat, Sarah

AU - Baumann, Hans Jörg

AU - Klose, Hans

AU - Dahme, Bernhard

AU - Büchel, Christian

PY - 2009

Y1 - 2009

N2 - The early detection of stimuli signalling threat to an organism is a crucial evolutionary advantage. For example, the perception of aversive bodily sensations such as dyspnea and pain strongly motivates fast adaptive behaviour to ensure survival. Their similarly threatening and motivating characters led to the speculation that both sensations are mediated by common brain areas, which has also been suggested by neuroimaging studies on either dyspnea or pain. By using functional magnetic resonance imaging (fMRI), we formally tested this hypothesis and compared the cortical processing of perceived heat pain and resistive load induced dyspnea in the same group of participants. Here we show that the perception of both aversive sensations is processed in similar brain areas including the insula, dorsal anterior cingulate cortex, amygdala and medial thalamus. These areas have a documented role in the processing of emotions such as fear and anxiety. Thus, the current study highlights the role of a common emotion-related human brain network which underlies the perception of aversive bodily sensations such as dyspnea and pain. This network seems crucial for translating the threatening character of different bodily signals into behavioural consequences that promote survival.

AB - The early detection of stimuli signalling threat to an organism is a crucial evolutionary advantage. For example, the perception of aversive bodily sensations such as dyspnea and pain strongly motivates fast adaptive behaviour to ensure survival. Their similarly threatening and motivating characters led to the speculation that both sensations are mediated by common brain areas, which has also been suggested by neuroimaging studies on either dyspnea or pain. By using functional magnetic resonance imaging (fMRI), we formally tested this hypothesis and compared the cortical processing of perceived heat pain and resistive load induced dyspnea in the same group of participants. Here we show that the perception of both aversive sensations is processed in similar brain areas including the insula, dorsal anterior cingulate cortex, amygdala and medial thalamus. These areas have a documented role in the processing of emotions such as fear and anxiety. Thus, the current study highlights the role of a common emotion-related human brain network which underlies the perception of aversive bodily sensations such as dyspnea and pain. This network seems crucial for translating the threatening character of different bodily signals into behavioural consequences that promote survival.

M3 - SCORING: Zeitschriftenaufsatz

JO - NEUROIMAGE

JF - NEUROIMAGE

SN - 1053-8119

ER -