Keeping pain out of mind: the role of the dorsolateral prefrontal cortex in pain modulation

doi:10.1093/brain/awg102

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Brain, Vol. 126, No. 5, 1079-1091, May 2003
© 2003 Guarantors of Brain
doi: 10.1093/brain/awg102

Keeping pain out of mind: the role of the dorsolateral prefrontal cortex in pain modulation

J. Lorenz¹^,3^,5, S. Minoshima⁴ and K. L. Casey¹^,2^,3

Departments of ¹ Neurology and ² Physiology, University of Michigan, ³ Neurology Research Laboratories, Veterans Affairs Medical Center, Ann Arbor, MI, ⁴ Radiology Department, University of Washington, Seattle, WA, USA and ⁵ Institute of Physiology, University of Hamburg, Hamburg, Germany

Correspondence to: PD Dr med. Jürgen Lorenz, Institut für Neurophysiologie und Pathophysiologie, Universitätsklinikum Eppendorf Hamburg, Martinistrasse 52, D-20246 Hamburg, Germany E-mail: lorenz{at}uke.uni-hamburg.de

Frontal lobe activity during pain is generally linked to attentionalprocessing. We addressed the question of whether ‘bottom-up’processing and ‘top-down’ modulation of nociceptiveinformation dissociate anatomically within the frontal lobeby using PET scanning during painful thermal stimulation ofnormal and capsaicin-treated skin. We showed recently that painfollowing normally non-painful heat stimuli on chemically irritatedskin (heat allodynia) uniquely engages extensive areas of thebilateral dorsolateral prefrontal (DLPFC), ventral/orbitofrontal(VOFC) and perigenual anterior cingulate (ACC) cortices. Here,we applied principal component analysis (PCA) and multiple regressionanalysis to study the covariance structure of the volumes ofinterest (VOI) activated specifically during heat allodyniain 14 male healthy subjects and evaluated the relationship ofthese VOI to ratings of pain intensity and affect. Results yieldeda primary principal component (PC) that correlated positivelywith intensity and unpleasantness and accounted for activityin the medial thalamus, bilateral anterior insula, ventral striatum,perigenual ACC and bilateral VOFC. Activities in the right andleft DLPFC loaded on separate PC and correlated negatively withperceived intensity and unpleasantness. The inter-regional correlationof midbrain and medial thalamic activity was significantly reducedduring high left DLPFC activity, suggesting that its negativecorrelation with pain affect may result from dampening of theeffective connectivity of the midbrain–medial thalamicpathway. In contrast, right DLPFC activity was associated witha weakened relationship of the anterior insula with both painintensity and affect. We propose that the DLPFC exerts activecontrol on pain perception by modulating corticosubcorticaland corticocortical pathways.

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