OBJECTIVE: To characterize laser evoked potentials (LEP), pain psychophysics and local tissue response in fibromyalgia patients. METHODS: LEP were recorded in 14 women with fibromyalgia in response to bilateral stimulation of tender and control points in upper limbs by 4 blocks of 20 stimuli at each point. Subsequently, heat pain thresholds were measured and supra-threshold magnitude estimations of heat pain stimuli were obtained on a visual analogue scale. Finally, the extent of the local tissue response induced by the previous stimuli was evaluated. RESULTS: Laser stimuli elicited two long latency waves: A late wave (mean latency 368.9+/-66.9 ms) in most patients (13/14) from stimuli at all points, and an ultra-late wave (mean latency 917.3+/-91.8 ms) in 78.5% of the patients at the control points and in 71.4% at the tender points. Amplitude of ultra-late waves was higher at the tender points (20.67+/-11.1 microV) than at the control points (10.47+/-4.1 microV) (P=0.016). Pain thresholds were lower in the tender (41.2+/-2.7 degrees C) than the control points (43.9+/-3.2 degrees C) (P=0.008). Local tissue response was significantly more intense at tender than control points (P=0.004). CONCLUSIONS: Ultra-late laser evoked potentials can be recorded simultaneously with late potentials. Our findings are compatible with presence of peripheral C-fiber sensitization, mostly at tender points, probably combined with generalized central sensitization of pain pathways in fibromyalgia.
OBJECTIVE: To characterize laser evoked potentials (LEP), pain psychophysics and local tissue response in fibromyalgiapatients. METHODS: LEP were recorded in 14 women with fibromyalgia in response to bilateral stimulation of tender and control points in upper limbs by 4 blocks of 20 stimuli at each point. Subsequently, heat pain thresholds were measured and supra-threshold magnitude estimations of heat pain stimuli were obtained on a visual analogue scale. Finally, the extent of the local tissue response induced by the previous stimuli was evaluated. RESULTS: Laser stimuli elicited two long latency waves: A late wave (mean latency 368.9+/-66.9 ms) in most patients (13/14) from stimuli at all points, and an ultra-late wave (mean latency 917.3+/-91.8 ms) in 78.5% of the patients at the control points and in 71.4% at the tender points. Amplitude of ultra-late waves was higher at the tender points (20.67+/-11.1 microV) than at the control points (10.47+/-4.1 microV) (P=0.016). Pain thresholds were lower in the tender (41.2+/-2.7 degrees C) than the control points (43.9+/-3.2 degrees C) (P=0.008). Local tissue response was significantly more intense at tender than control points (P=0.004). CONCLUSIONS: Ultra-late laser evoked potentials can be recorded simultaneously with late potentials. Our findings are compatible with presence of peripheral C-fiber sensitization, mostly at tender points, probably combined with generalized central sensitization of pain pathways in fibromyalgia.
Authors: Roland Staud; Jason G Craggs; William M Perlstein; Michael E Robinson; Donald D Price Journal: Eur J Pain Date: 2008-03-25 Impact factor: 3.931
Authors: Ceferino Maestú; Manuel Blanco; Angel Nevado; Julia Romero; Patricia Rodríguez-Rubio; Javier Galindo; Juan Bautista Lorite; Francisco de las Morenas; Pedro Fernández-Argüelles Journal: Pain Res Manag Date: 2013 Nov-Dec Impact factor: 3.037
Authors: Duncan D Atherton; Paul Facer; Katherine M Roberts; V Peter Misra; Boris A Chizh; Chas Bountra; Praveen Anand Journal: BMC Neurol Date: 2007-08-03 Impact factor: 2.474