WOEXT: 69 - Hot pain
 
Bib -> Asymmetry | Author | ICA | NMF | Novelty | Statistics | SVD | Title | WOBIB ]
 
 
Exp -> Alphabetic | Asymmetry | ICA | NMF | Novelty | SVD | WOEXP | WOEXT ]
 
 
Ext -> Alphabetic index | Map | Roots ]          [ Brede ]          Loc -> Statistics ]
 


WOEXT: 69. Hot pain.
Pain from heating.


ParentsSiblingsChildren
Warm temperature sensation
Thermal pain
Early phase heat pain
Late phase heat pain

Experiments:

  1. Hot pain. 46 degree Celsius noxious thermal stimuli with a 3x3cm peltier thermode to the dorsum of the left hand versus 35 degrees stimuli. WOEXP: 183.
    I. Tracey; L. Becerra; I. Chang; H. Breiter; L. Jenkins; D. Borsook; R. G. Gonzalez. Noxious hot and cold stimulation produce common patterns of brain activation in humans: a functional magnetic resonance imaging study. Neuroscience Letters 288(2):159-62, 2000. PMID: 10876085. WOBIB: 57.
  2. Attended heat pain on right hand. 46 to 49 degrees Celsius hot stimuli on the thenar eminence of the right hand using a peltier thermode versus 40 degrees warm stimuli. WOEXP: 186.
    Jonathan C. W. Brooks; Turo J. Nurmikko; William E. Bimson; Krish D. Singh; Neil Roberts. fMRI of thermal pain: effects of stimulus laterality and attention. NeuroImage 15(2):293-301, 2002. PMID: 11798266. DOI: 10.1006/nimg.2001.0974. WOBIB: 60.
  3. Distracted heat pain on right hand. 46 to 49 degrees Celsius hot stimuli on the thenar eminence of the right hand using a peltier thermode distracted by a visual motion task with silent counting of the number of partial coherent visual motion blocks versus distract 40 degrees warm stimuli. WOEXP: 187.
    Jonathan C. W. Brooks; Turo J. Nurmikko; William E. Bimson; Krish D. Singh; Neil Roberts. fMRI of thermal pain: effects of stimulus laterality and attention. NeuroImage 15(2):293-301, 2002. PMID: 11798266. DOI: 10.1006/nimg.2001.0974. WOBIB: 60.
  4. Attended heat pain on left hand. 46 to 49 degrees Celsius hot stimuli on the thenar eminence of the left hand using a peltier thermode versus 40 degrees warm stimuli. WOEXP: 188.
    Jonathan C. W. Brooks; Turo J. Nurmikko; William E. Bimson; Krish D. Singh; Neil Roberts. fMRI of thermal pain: effects of stimulus laterality and attention. NeuroImage 15(2):293-301, 2002. PMID: 11798266. DOI: 10.1006/nimg.2001.0974. WOBIB: 60.
  5. Distracted heat pain on left hand. 46 to 49 degrees Celsius hot stimuli on the thenar eminence of the left hand using a peltier thermode distracted by a visual motion task with silent counting of the number of partial coherent visual motion blocks versus distract 40 degrees warm stimuli. WOEXP: 189.
    Jonathan C. W. Brooks; Turo J. Nurmikko; William E. Bimson; Krish D. Singh; Neil Roberts. fMRI of thermal pain: effects of stimulus laterality and attention. NeuroImage 15(2):293-301, 2002. PMID: 11798266. DOI: 10.1006/nimg.2001.0974. WOBIB: 60.
  6. Hot pain in right hand. 47 degrees hot pain on the palmar surface of the right hand versus normal 34 degrees. WOEXP: 217.
    A. D. Craig; Eric M. Reiman; A. Evans; M. C. Bushnell. Functional imaging of an illusion of pain. Nature 384(6606):258-60, 1996. PMID: 8918874. WOBIB: 69.
  7. Hot pain on left hand (group 1). 46 degrees hot pain to the dorsum of the left hand versus 35 degree stimuli. WOEXP: 225.
    L. R. Becerra; H. C. Breiter; M. Stojanovic; S. Fishman; A. Edwards; A. R. Comite; R. G. Gonzalez; D. Borsook. Human brain activation under controlled thermal stimulation and habituation to noxious heat: an fMRI study. Magnetic Resonance in Medicine 41(5):1044-57, 1999. PMID: 10332889. WOBIB: 72.
  8. Hot pain on left hand (group 2). 46 degrees hot pain to the dorsum of the left hand versus 35 degree stimuli. WOEXP: 227.
    L. R. Becerra; H. C. Breiter; M. Stojanovic; S. Fishman; A. Edwards; A. R. Comite; R. G. Gonzalez; D. Borsook. Human brain activation under controlled thermal stimulation and habituation to noxious heat: an fMRI study. Magnetic Resonance in Medicine 41(5):1044-57, 1999. PMID: 10332889. WOBIB: 72.
  9. Painful heat on right fingers. Alternating Painful hot stimulus 1-2 degrees over pain threshold on the glabrous surfaces of the right fingers versus 41 degrees warm stimulus. Alternation by subject movement to a verbal cue. WOEXP: 230.
    P. A. Gelnar; B. R. Krauss; P. R. Sheehe; N. M. Szeverenyi; A. V. Apkarian. A comparative fMRI study of cortical representations for thermal painful, vibrotactile, and motor performance tasks. NeuroImage 10(4):460-82, 1999. PMID: 10493903. DOI: 10.1006/nimg.1999.0482. WOBIB: 75.
  10. Hot pain on right hand in rest, mental imagery and hypnosis. Hot pain (typically 47 degrees) on the thenar surface of the right hand versus 35 degrees stimuli. During rest, mental imagery and hypnosis. WOEXP: 233.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  11. Hot pain on right hand in rest and mental imagery. Hot pain (typically 47 degrees) on the thenar surface of the right hand versus 35 degrees stimuli. During rest and mental imagery. WOEXP: 234.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  12. Hot pain on right hand during hypnosis. Hot pain (typically 47 degrees) on the thenar surface of the right hand versus 35 degrees stimuli. During hypnosis. WOEXP: 235.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  13. Interaction between hypnosis and hot pain on right hand. Interaction between hypnosis and hot pain (typically 47 degrees) on the thenar surface of the right hand versus 35 degrees stimuli and rest and mental imagery. WOEXP: 237.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  14. Correlated with pain ratings in hot pain on right hand in rest, mental imagery and hypnosis. Increases due to pain rating in hot pain (typically 47 degrees) on the thenar surface of the right hand versus 35 degrees stimuli. During rest, mental imagery and hypnosis. WOEXP: 238.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  15. Interaction between hypnosis and pain ratings in hot pain on right hand.. Interaction between hypnosis and increases due to pain rating in hot pain (typically 47 degrees) on the thenar surface of the right hand. WOEXP: 240.
    M. E. Faymonville; S. Laureys; C. Degueldre; G. DelFiore; A. Luxen; G. Franck; M. Lamy; P. Maquet. Neural mechanisms of antinociceptive effects of hypnosis. Anesthesiology 92(5):1257-67, 2000. PMID: 10781270. WOBIB: 76.
  16. Heat pain on right arm. Hot pain 1 degree over pain threshold on right volar forearm versus warm stimuli 1 degree below pain threshold. WOEXP: 245.
    T. R. Tolle; T. Kaufmann; T. Siessmeier; S. Lautenbacher; A. Berthele; F. Munz; W. Zieglgansberger; F. Willoch; M. Schwaiger; B. Conrad; P. Bartenstein. Region-specific encoding of sensory and affective components of pain in the human brain: a positron emission tomography correlation analysis. Annals of Neurology 45(1):40-47, 1999. PMID: 9894875. WOBIB: 79.
  17. Positive correlation with pain threshold. . WOEXP: 246.
    T. R. Tolle; T. Kaufmann; T. Siessmeier; S. Lautenbacher; A. Berthele; F. Munz; W. Zieglgansberger; F. Willoch; M. Schwaiger; B. Conrad; P. Bartenstein. Region-specific encoding of sensory and affective components of pain in the human brain: a positron emission tomography correlation analysis. Annals of Neurology 45(1):40-47, 1999. PMID: 9894875. WOBIB: 79.
  18. Correlation with pain intensity. Correlation with subjective ratings of pain intensity with hot pain right volar forearm. WOEXP: 248.
    T. R. Tolle; T. Kaufmann; T. Siessmeier; S. Lautenbacher; A. Berthele; F. Munz; W. Zieglgansberger; F. Willoch; M. Schwaiger; B. Conrad; P. Bartenstein. Region-specific encoding of sensory and affective components of pain in the human brain: a positron emission tomography correlation analysis. Annals of Neurology 45(1):40-47, 1999. PMID: 9894875. WOBIB: 79.
  19. Correlation with pain unpleasantness. Correlation with subjective ratings of unpleasantness with hot pain right volar forearm. WOEXP: 249.
    T. R. Tolle; T. Kaufmann; T. Siessmeier; S. Lautenbacher; A. Berthele; F. Munz; W. Zieglgansberger; F. Willoch; M. Schwaiger; B. Conrad; P. Bartenstein. Region-specific encoding of sensory and affective components of pain in the human brain: a positron emission tomography correlation analysis. Annals of Neurology 45(1):40-47, 1999. PMID: 9894875. WOBIB: 79.
  20. Heat pain on left hand. Heat pain on dorsal surface of the left hand with and without a Stroop task versus warm. WOEXP: 312.
    Brent A. Vogt; Stuart Derbyshire; Anthony K. Jones. Pain processing in four regions of human cingulate cortex localized with co-registered PET and MR imaging. European Journal of Neuroscience 8(7):1461-73, 1996. PMID: 8758953. WOBIB: 100.
  21. Heat pain on left volar forearm. 47-48 degrees Celsius hot pain on the volar forearm with fentanyl or placebo versus 40 degrees hot stimulus. WOEXP: 314.
    L. J. Adler; F. E. Gyulai; D. J. Diehl; M. A. Mintun; P. M. Winter; L. L. Firestone. Regional brain activity changes associated with fentanyl analgesia elucidated by positron emission tomography. Anesthesia & Analgesia 84(1):120-126, 1997. PMID: 8989012. WOBIB: 101.
  22. Heat pain on left arm. 50 degrees heat pain stimuli on six separate sites on the left volar forearm versus 40 degrees stimuli. WOEXP: 319.
    K. L. Casey; S. Minoshima; T. J. Morrow; R. A. Koeppe. Comparison of human cerebral activation pattern during cutaneous warmth, heat pain, and deep cold pain. Journal of Neurophysiology 76(1):571-81, 1996. PMID: 8836245. WOBIB: 102.
  23. Heat pain. 48 to 49 degrees heat pain on the right volar forearm versus 41 to 42 warm stimulus. WOEXP: 346.
    J. D. Talbot; S. Marrett; Alan C. Evans; Ernst Meyer; M. C. Bushnell; G. H. Duncan. Multiple representations of pain in human cerebral cortex. Science 251(4999):1355-8, 1991. PMID: 2003220. BrainMap: 5. WOBIB: 114.
  24. Heat pain in left forearm versus thermal stimulus. 47-48 degrees painful heat on ventral surface of left forearm versus 34 degrees stimulus. WOEXP: 362.
    R. C. Coghill; J. D. Talbot; A. C. Evans; Ernst Meyer; Albert Gjedde; M. C. Bushnell; G. H. Duncan. Distributed processing of pain and vibration by the human brain. Journal of Neuroscience 14(7):4095-108, 1994. PMID: 8027764. WOBIB: 117.
  25. Decreases in heat pain in left forearm. 34 degrees stimulus on ventral surface of left forearm versus painful heat stimulus. WOEXP: 363.
    R. C. Coghill; J. D. Talbot; A. C. Evans; Ernst Meyer; Albert Gjedde; M. C. Bushnell; G. H. Duncan. Distributed processing of pain and vibration by the human brain. Journal of Neuroscience 14(7):4095-108, 1994. PMID: 8027764. WOBIB: 117.
  26. Heat pain in left forearm versus vibration. 47-48 degrees painful heat on ventral surface of left forearm versus 100 Hz vibration stimulus. WOEXP: 366.
    R. C. Coghill; J. D. Talbot; A. C. Evans; Ernst Meyer; Albert Gjedde; M. C. Bushnell; G. H. Duncan. Distributed processing of pain and vibration by the human brain. Journal of Neuroscience 14(7):4095-108, 1994. PMID: 8027764. WOBIB: 117.
  27. Heat pain - male. 50 degrees heat pain on the left forearm of males versus 40 degrees stimulus. WOEXP: 367.
    P. E. Paulson; S. Minoshima; T. J. Morrow; K. L. Casey. Gender differences in pain perception and patterns of cerebral activation during noxious heat stimulation in humans. Pain 76(1-2):223-9, 1998. PMID: 9696477. WOBIB: 118.
  28. Heat pain - female. 50 degrees heat pain on the left forearm of females versus 40 degrees stimulus. WOEXP: 368.
    P. E. Paulson; S. Minoshima; T. J. Morrow; K. L. Casey. Gender differences in pain perception and patterns of cerebral activation during noxious heat stimulation in humans. Pain 76(1-2):223-9, 1998. PMID: 9696477. WOBIB: 118.
  29. Hot pain in 1 second for N550 component. Dipole source for the N550 event-related potential component associated with hot pain during 1 second. WOEXP: 420.
    Andrew C. N. Chen; David M. Niddam; Helen J. Crawford; Robert Oostenveld; Lars Arendt-Nielsen. Spatial summation of pain processing in the human brain as assessed by cerebral event related potentials. Neuroscience Letters 328(2):190-194, 2002. PMID: 12133585. FMRIDCID: . WOBIB: 136.
  30. Hot pain in 2 second for N550 component. Dipole source for the N550 event-related potential component associated with hot pain during 2 seconds. WOEXP: 421.
    Andrew C. N. Chen; David M. Niddam; Helen J. Crawford; Robert Oostenveld; Lars Arendt-Nielsen. Spatial summation of pain processing in the human brain as assessed by cerebral event related potentials. Neuroscience Letters 328(2):190-194, 2002. PMID: 12133585. FMRIDCID: . WOBIB: 136.
  31. Hot pain in 1 second for P750 component. Dipole source for the P750 event-related potential component associated with hot pain during 1 seconds. WOEXP: 422.
    Andrew C. N. Chen; David M. Niddam; Helen J. Crawford; Robert Oostenveld; Lars Arendt-Nielsen. Spatial summation of pain processing in the human brain as assessed by cerebral event related potentials. Neuroscience Letters 328(2):190-194, 2002. PMID: 12133585. FMRIDCID: . WOBIB: 136.
  32. Hot pain in 2 second for P750 component. Dipole source for the P750 event-related potential component associated with hot pain during 2 seconds. WOEXP: 423.
    Andrew C. N. Chen; David M. Niddam; Helen J. Crawford; Robert Oostenveld; Lars Arendt-Nielsen. Spatial summation of pain processing in the human brain as assessed by cerebral event related potentials. Neuroscience Letters 328(2):190-194, 2002. PMID: 12133585. FMRIDCID: . WOBIB: 136.
corner cube

VRML97 file (593 Kb)


Child experiments:

  1. Early phase heat pain. 50 degrees Celsius heat on the left volar forearm starting at the scanning onset versus 40 degrees warm stimulus. WOEXP: 298.
    K. L. Casey; T. J. Morrow; J. Lorenz; S. Minoshima. Temporal and spatial dynamics of human forebrain activity during heat pain: analysis by positron emission tomography. Journal of Neurophysiology 85(2):951-9, 2001. PMID: 11160525. WOBIB: 95.
  2. Late phase heat pain. 50 degrees Celsius heat on the left volar forearm starting 40 seconds prior to the scanning onset versus 40 degrees warm stimulus. WOEXP: 299.
    K. L. Casey; T. J. Morrow; J. Lorenz; S. Minoshima. Temporal and spatial dynamics of human forebrain activity during heat pain: analysis by positron emission tomography. Journal of Neurophysiology 85(2):951-9, 2001. PMID: 11160525. WOBIB: 95.
Corner cube

Reference

  1. John W. Kimball. Heat, Cold, and Pain. http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/P/Pain.html


Bib -> Asymmetry | Author | ICA | NMF | Novelty | Statistics | SVD | Title | WOBIB ]
Exp -> Alphabetic | Asymmetry | ICA | NMF | Novelty | SVD | WOEXP | WOEXT ]
Ext -> Alphabetic index | Map | Roots ]          [ Brede ]          Loc -> Statistics ]
Automatically constructed by Brede Toolbox through brede_ext_ext2html, 2006-08-15T21:52:07