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References

  • 1
    Talley NJ, Piper DW. The association between non-ulcer dyspepsia and other gastrointestinal disorders. Scand J Gastroenterol 1985; 20: 896900.
  • 2
    Stanghellini V, Tosetti C, Paternic A et al. Risk indicators of delayed gastric emptying of solids in patients with functional dyspepsia. Gastroenterology 1996; 110: 103642.
  • 3
    Tack J, Piessevaux H, Coulie B, Caenepeel P, Janssens J. Role of impaired gastric accommodation to a meal in functional dyspepsia. Gastroenterology 1998; 115: 134652.
  • 4
    Tack J, Caenepeel P, Fischler B, Piessevaux H, Janssens J. Symptoms associated with hypersensitivity to gastric distention in functional dyspepsia. Gastroenterology 2001; 121: 52635.
  • 5
    Kirkup AJ, Brunsden AM, Grundy D. Receptors and transmission in the brain-gut axis: potential for novel therapies. I. Receptors on visceral afferents. Am J Physiol 2001; 280: G78794.
  • 6
    Mearin F, Cucala M, Azpiroz F, Malagelada JR. The origin of symptoms on the brain-gut axis in functional dyspepsia. Gastroenterology 1991; 101: 9991006.
  • 7
    Mertz H, Morgan V, Tanner G et al. Regional cerebral activation in irritable bowel syndrome and control subjects with painful and nonpainful rectal distention. Gastroenterology 2000; 118: 8428.
  • 8
    Ladabaum U, Minoshima S, Hasler WL et al. Gastric distention correlates with activation of multiple cortical and subcortical regions. Gastroenterology 2001; 120: 36976.
  • 9
    Meyer J. Motility of the stomach and gastroduodenal junction. In: LrJ, ed. Physiology of the Gastrointestinal Tract, 2nd edn. New York: Raven Press, 1987: 61330.
  • 10
    Kelly KA. Gastric emptying of liquids and solids: roles of proximal and distal stomach. Am J Physiol 1980; 239: G716.
  • 11
    Ingvar M, Hsieh JC. The image of pain. In: WallPD, MelzackR, eds. Textbook of Pain, 4th edn. Edinburgh: Churchill Livingstone, 1999: 21534.
  • 12
    Aziz Q, Andersson JL, Valind S et al. Identification of human brain loci processing esophageal sensation using positron emission tomography. Gastroenterology 1997; 113: 509.
  • 13
    Aziz Q, Thompson DG, Ng VW et al. Cortical processing of human somatic and visceral sensation. J Neurosci 2000; 20: 265763.
  • 14
    Baciu MV, Bonaz BL, Papillon E et al. Central processing of rectal pain: a functional MR imaging study. Am J Neuroradiol 1999; 20: 19204.
  • 15
    Binkofski F, Schnitzler A, Enck P et al. Somatic and limbic cortex activation in esophageal distention: a functional magnetic resonance imaging study. Ann Neurol 1998; 44: 8115.
  • 16
    Kern MK, Birn RM, Jaradeh S et al. Identification and characterization of cerebral cortical response to esophageal mucosal acid exposure and distention. Gastroenterology 1998; 115: 135362.
  • 17
    Kern MK, Jaradeh S, Arndorfer RC, Jesmanowicz A, Hyde J, Shaker R. Gender differences in cortical representation of rectal distension in healthy humans. Am J Physiol 2001; 281: G151223.
  • 18
    Lotze M, Wietek B, Birbaumer N, Ehrhardt J, Grodd W, Erick P. Cerebral activation during anal and rectal stimulation. Neuroimage 2001; 14: 102734.
  • 19
    Hobday DI, Aziz Q, Thacker N, Hollander I, Jackson A, Thompson DG. A study of the cortical processing of ano-rectal sensation using functional MRI. Brain 2001; 124: 3618.
  • 20
    Silverman DH, Munakata JA, Ennes H, Mandelkern MA, Hoh CK, Mayer EA. Regional cerebral activity in normal and pathological perception of visceral pain. Gastroenterology 1997; 112: 6472.
  • 21
    Saper CB. The central autonomic nervous system: conscious visceral perception and autonomic pattern generation. Annu Rev Neurosci 2002; 25: 43369.
  • 22
    Davis M. The role of the amygdala in fear and anxiety. Annu Rev Neurosci 1992; 15: 35375.
  • 23
    Traub RJ, Silva E, Gebhart GF, Solodkin A. Noxious colorectal distention induced-c-Fos protein in limbic brain structures in the rat. Neurosci Lett 1996; 215: 1658.
  • 24
    Greenwood-Van Meerveld B, Gibson M, Gunter W, Shepard J, Foreman R, Myers D. Stereotaxic delivery of corticosterone to the amygdala modulates colonic sensitivity in rats. Brain Res 2001; 893: 13542.
  • 25
    Stam R, Ekkelenkamp K, Frankhuijzen AC, Bruijnzeel AW, Akkermans LM, Wiegant VM. Long-lasting changes in central nervous system responsivity to colonic distention after stress in rats. Gastroenterology 2002; 123: 121625.
  • 26
    Hsieh JC, Cheng H, Hsieh HM et al. Loss of interhemispheric inhibition on the ipsilateral primary sensorimotor cortex in patients with brachial plexus injury: fMRI study. Ann Neurol 2002; 51: 3815.
  • 27
    Friston KJ, Josephs O, Rees G, Turner R. Nonlinear event-related responses in fMRI. Magn Reson Med 1998; 39: 4152.
  • 28
    Friston KJ, Holmes AP, Worsley KJ. How many subjects constitute a study? Neuroimage 1999; 10: 15.
  • 29
    Niddam DM, Yeh TC, Wu YT et al. Event-related fMRI study on central representation of acute muscle pain induced by electric stimulation. Neuroimage 2002; 17: 143750.
  • 30
    Peyron R, Laurent B, Garcia-Larrea L. Functional imaging of brain responses to pain. A review and meta-analysis. Neurophysiol Clin 2000; 30: 26388.
  • 31
    Bushnell MC, Duncan GH, Hofbaue RK, Ha B, Chen JI, Carrier B. Pain perception: is there a role for primary somatosensory cortex? Proc Natl Acad Sci USA 1999; 96: 77059.
  • 32
    Cervero F, Laird JM. Visceral pain. Lancet 1999; 353: 21458.
  • 33
    Hsieh JC, Stahle-Backdahl M, Hagermark O, Stone-Elander S, Rosenquist G, Ingvar M. Traumatic nociceptive pain activates the hypothalamus and the periaqueductal gray: a positron emission tomography study. Pain 1996; 64: 30314.
  • 34
    Hsieh JC, Hannerz J, Ingvar M. Right-lateralised central processing for pain of nitroglycerin-induced cluster headache. Pain 1996; 67: 5968.
  • 35
    Bonaz B, Baciu M, Papillon E et al. Central processing of rectal pain in patients with irritable bowel syndrome: an fMRI study. Am J Gastroenterol 2002; 97: 65461.
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  • 36
    Berman SM, Chang L, Suyenobu B et al. Condition-specific deactivation of brain regions by 5-HT3 receptor antagonist Alosetron. Gastroenterology 2002; 123: 96977.
  • 37
    Masaoka Y, Hirasawa K, Yamane F, Hori T, Homma I. Effects of left amygdala lesions on respiration, skin conductance, heart rate, anxiety, and activity of the right amygdala during anticipation of negative stimulus. Behav Modif 2003; 27: 60719.
  • 38
    Morris JS, Ohman A, Dolan RJ. A subcorticalpathwa to the right amygdala mediating ‘unseen’ fear. Proc Natl Acad Sci USA 1999; 96: 16805.
  • 39
    Hsieh JC, Belfrage M, Stone-Elander S, Hansson P, Ingvar M. Central representation of chronic ongoing neuropathic pain studied by positron emission tomography. Pain 1995; 63: 22536.
  • 40
    Hsieh JC, Meyerson BA, Ingvar M. PET study on central processing of pain in trigeminal neuropathy. Eur J Pain 1999; 3: 5165.
  • 41
    Augustine JR. Circuitry and functional aspects of the insular lobe in primates including humans. Brain Res Brain Res Rev 1996; 22: 22944.
  • 42
    Craig AD. How do you feel? Interoceoption: the sense of the physiological condition of the body. Nat Rev Neurosci 2002; 3: 65562.
  • 43
    Ito S, Ohgushi M, Ifuku H, Ogawa H. Neuronal activity in the monkey fronto-opercular and adjacent insular/prefrontal cortices during a taste discrimination GO/NOGO task: response to cues. Neurosci Res 2001; 41: 25766.
  • 44
    Cechetto DF, Saper CB. Evidence for a viscerotopic sensory representation in the cortex and thalamus in the rat. J Comp Neurol 1987; 262: 2745.
  • 45
    Rosen SD, Paulesu E, Frith CD et al. Central nervous pathways mediating angina pectoris. Lancet 1994; 344: 14750.
  • 46
    Oshiro Y, Fuijita N, Tanaka H, Hirabuki N, Nakamura H, Yoshiya I. Functional mapping of pain-related activation with echo-planar MRI: significance of the SII-insular region. Neuroreport 1998; 9: 22859.
  • 47
    Apkarian AV, Shi T. Thalamocortical connections of the cingulate and insula in relation to nociceptive inputs to the cortex. In: AyrapetianS, ApkarianAV, eds. Pain Mechanisms and Management. Amsterdam: IOS Press, 1997, 21220.
  • 48
    Gelnar PA, Krauss BR, Sheehe PR, Szeverenyi NM, Apkarian AV. A comparative fMRI study of cortical representations for thermal painful, vibrotactile, and motor performance tasks. Neuroimage 1999; 10: 46082.
  • 49
    Maddock RJ. The retrosplenial cortex and emotion: new insights from functional neuroimaging of the human brain. Trends Neurosci 1999; 22: 3106.
  • 50
    Clark DL, Boutros NN. The Brain and Behavior: An Introduction to Behavioral Neuroanatomy. Malden, MA: Blackwell Science, 1999.
  • 51
    Critchley HD, Mathias CJ, Dolan RJ. Neuroanatomical basis for first- and second-order representations of bodily states. Nat Neurosci 2001; 4: 20712.
  • 52
    Lobanova LV, Smirnov SI. Reflection of visceral afferentiation in unit activity in the caudate nucleus. Neurosci Behav Physiol 1977; 8: 6772.
  • 53
    Chudler EH, Dong WK. The role of the basal ganglia in nociception and pain. Pain 1995; 60: 338.
  • 54
    Ness TJ, Follett KA, Piper J, Dirks BA. Characterization of neurons in the area of the medullary lateral reticular nucleus responsive to noxious visceral and cutaneous stimuli. Brain Res 1998; 802: 16374.
  • 55
    Grodd W, Hulsmann E, Lotze M, Wildgruber D, Erb M. Sensorimotor mapping of the human cerebellum: fMRI evidence of somatotopic organization. Hum Brain Mapp 2001; 13: 5573.
  • 56
    Haines DE, Dietrichs E, Mihailoff GA, McDonald EF. Cerebellar–hypothalamic axis: basic circuits and clinical observations. In: SchmahmannJD, ed. The Cerebellum and Cognition. London: Academic Press, 1997: 8494.
  • 57
    Mesulam MM. From sensation to cognition. Brain 1998; 121: 101352.
  • 58
    Staines WR, Graham SJ, Black SE, McIlroy WE. Task-relevant modulation of contralateral and ipsilateral primary somatosensory cortex and the role of a prefrontal-cortical sensory gating system. Neuroimage 2002; 15: 1909.
  • 59
    Hsieh JC, Hagermark O, Stahle-Backdahl M et al. Urge to scratch represented in the human cerebral cortex during itch. J Neurophysiol 1994; 72: 30048.
  • 60
    Paulson PE, Minoshima S, Morrow TJ, Casey KL. Gender differences in pain perception and patterns of cerebral activation during noxious heat stimulation in humans. Pain 1998; 76: 2239.
  • 61
    Kern MK, Shaker R. Cerebral cortical registration of subliminal visceral stimulation. Gastroenterology 2002; 122: 2908.