Abstract
Positron emission tomography studies have identified a common set of brain regions activated by pain. No studies, however, have quantitatively examined pain-induced CBF changes. To better characterize CBF during pain, 14 subjects received positron emission tomography scans during rest, during capsaicin-evoked pain (250 μg, intradermal injection), and during innocuous vibration. Using the H215O intravenous bolus method with arterial blood sampling, global CBF changes were assessed quantitatively. Painful stimulation produced a 22.8% decrease in global CBF from resting levels (P < 0.0005). This decrease was not accounted for by arterial PCO2 or heart rate changes. Although the exact mechanism remains to be determined, this pain- induced global decrease represents a previously unidentified response of CBF.
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Coghill, R. C., Sang, C. N., Berman, K. F., Bennett, G. J., & Iadarola, M. J. (1998). Global cerebral blood flow decreases during pain. Journal of Cerebral Blood Flow and Metabolism, 18(2), 141–147. https://doi.org/10.1097/00004647-199802000-00003
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