Brain activity associated with slow temporal summation of

Eur J Pain · Nov 2008

Brain activity associated with slow temporal summation of C-fiber evoked pain in fibromyalgia patients and healthy controls.

Temporal summation of "second pain" (TSSP) is the result of C-fiber-evoked responses of dorsal-horn neurons, termed "windup". This phenomenon is dependent on stimulus frequency (0.33 Hz) and relevant for central sensitization as well as chronic pain. Whereas, our previous functional magnetic resonance imaging (fMRI) study characterized neural correlates of TSSP in 11 healthy volunteers, the present study was designed to compare brain responses associated with TSSP across these healthy participants and 13 fibromyalgia (FM) patients. ⋯ Subsequently, the fMRI-data of both groups were combined to increase the power of our statistical comparisons. fMRI-statistical maps identified several brain regions with stimulus and frequency dependent activation consistent with TSSP, including ipsilateral and contralateral thalamus, medial thalamus, S1, bilateral S2, mid- and posterior insula, rostral and mid-anterior cingulate cortex. However, the stimulus temperatures necessary to evoke equivalent levels of TSSP and corresponding brain activity were less in FM patients. These results suggest that enhanced neural mechanisms of TSSP in FM are reflected at all pain related brain areas, including posterior thalamus, and are not the result of selective enhancement at cortical levels.

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- Roland Staud, Jason G Craggs, William M Perlstein, Michael E Robinson, and Donald D Price.
- Department of Medicine, McKnight Brain Institute, University of Florida, Gainesville, FL 32610, United States. staudr@ufl.edu
- Eur J Pain. 2008 Nov 1; 12 (8): 107810891078-89.
AbstractTemporal summation of "second pain" (TSSP) is the result of C-fiber-evoked responses of dorsal-horn neurons, termed "windup". This phenomenon is dependent on stimulus frequency (0.33 Hz) and relevant for central sensitization as well as chronic pain. Whereas, our previous functional magnetic resonance imaging (fMRI) study characterized neural correlates of TSSP in 11 healthy volunteers, the present study was designed to compare brain responses associated with TSSP across these healthy participants and 13 fibromyalgia (FM) patients. Volume-of-interest analysis was used to assess TSSP-related brain activation. All participants underwent fMRI-scanning during repetitive heat pulses at 0.33 Hz and 0.17 Hz to the right foot. Stimulus intensities were adjusted to each individual's heat sensitivity to achieve comparable TSSP-ratings of moderate pain in all subjects. Experimental pain ratings showed robust TSSP during 0.33 Hz but not 0.17 Hz stimuli. When stimulus strength was adjusted to induce equivalent levels of TSSP, no differences in activation of pain-related brain regions occurred across NC and FM groups. Subsequently, the fMRI-data of both groups were combined to increase the power of our statistical comparisons. fMRI-statistical maps identified several brain regions with stimulus and frequency dependent activation consistent with TSSP, including ipsilateral and contralateral thalamus, medial thalamus, S1, bilateral S2, mid- and posterior insula, rostral and mid-anterior cingulate cortex. However, the stimulus temperatures necessary to evoke equivalent levels of TSSP and corresponding brain activity were less in FM patients. These results suggest that enhanced neural mechanisms of TSSP in FM are reflected at all pain related brain areas, including posterior thalamus, and are not the result of selective enhancement at cortical levels.

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Brain activity associated with slow temporal summation of C-fiber evoked pain in fibromyalgia patients and healthy controls.

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