Differentiation of Visceral and Cutaneous Pain in the Human Brain

doi:10.1152/jn.01048.2002

Differentiation of Visceral and Cutaneous Pain in the Human Brain

Irina A. Strigo¹, Gary H. Duncan⁴^,5, Michel Boivin³ and M. Catherine Bushnell¹^,2

Departments of ¹Physiology, and ²Anesthesia, McGill University, Montreal, H3G 1Y6;³ Département de Gastroenétrologie, Faculté de Médecine, ⁴Départements de Stomatologie and ⁵Centre de Recherché en Sciences Neurologiques, Faculté de Médecine Dentaire, Université de Montréal, Montreal, Quebec H3C 3J7 Canada

Submitted 19 November 2002; accepted in final form 9 February 2003

The widespread convergence of information from visceral, cutaneous,and muscle tissues onto CNS neurons invites the question ofhow to identify pain as being from the viscera. Despite referralof visceral pain to cutaneous areas, individuals regularlydistinguish cutaneous and visceral pain and commonly have contrastingbehavioral reactions to each. Our study addresses this dilemmaby directly comparing human neural processing of intensity-equatedvisceral and cutaneous pain. Seven subjects underwent fMRI scanning during visceral and cutaneous pain produced by balloondistention of the distal esophagus and contact heat on themidline chest. Stimulus intensities producing nonpainful andpainful sensations, interleaved with rest periods, were presentedin each functional run. Analyses compared painful to nonpainfulconditions. A similar neural network, including secondary somatosensoryand parietal cortices, thalamus, basal ganglia, and cerebellum, was activated by visceral and cutaneous painful stimuli. However,cutaneous pain evoked higher activation bilaterally in theanterior insular cortex. Further, cutaneous but not esophagealpain activated ventrolateral prefrontal cortex, despite higheraffective scores for visceral pain. Visceral but not cutaneouspain activated bilateral inferior primary somatosensory cortex, bilateral primary motor cortex, and a more anterior locus withinanterior cingulate cortex. Our results reveal a common corticalnetwork subserving cutaneous and visceral pain that could underliesimilarities in the pain experience. However, we also observeddifferential activation patterns within insular, primary somatosensory,motor, and prefrontal cortices that may account for the abilityto distinguish visceral and cutaneous pain as well as the differentialemotional, autonomic and motor responses associated with thesedifferent sensations.

Address for reprint requests: M. C. Bushnell, Anesthesia Research Unit, Room 1220, McGill University, 3655 Promenade Sir William Osler, Montreal, Quebec H3G 1Y6, Canada (E-mail: catherine.bushnell{at}mcgill.ca).

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