Cold pressor stimulation diminishes P50 amplitude in normal subjects

• Autorzy: Woods A.J. , Philbeck J. W. , Chelette K. , Skinner R. D. , Garcia-Rill E. , Mennemeier M.
• Języki publikacji: EN

Abstrakty

EN

The present study examined how cold pressor stimulation influences electrophysiological correlates of arousal. We measured the P50 auditory evoked response potential in two groups of subjects who immersed their foot in either cold (0-2°C) or room temperature (22-24°C) water for 50 seconds. The P50, which was recorded before and after stimulation, is sleep-state dependent and sensitive to states of arousal in clinical populations. We found a significant reduction in P50 amplitude after exposure to cold, but not room temperature water. In comparison with other studies, these results indicate that cold pressor stimulation in normal subjects may evoke a regulatory process that modulates the P50 amplitude, perhaps to preserve the integrity of sensory perception, even as autonomic and subjective aspects of arousal increase.

• Wydawca: -
• Czasopismo: Acta Neurobiologiae Experimentalis
• Rocznik: 2011
• Tom: 71
• Numer: 3
• Opis fizyczny: p.348-358,fig.,ref.

Twórcy

autor

Woods A.J.

• Center for Functional Neuroimaging, Department of Neurology, University of Pensylvania, Philadelphia, PA, USA
• Center for Cognitive Neuroscience, University of Pennsylvania, Philadelphia, PA, USA

autor

Philbeck J. W.

• Department of Psychology, The George Washington University, Washington, DC, USA

autor

Chelette K.

• Department of Physical Medicine and Rehabilitation, University of Kentucky, Lexington, KY, USA

autor

Skinner R. D.

• Department of Neurobiology and Developmental Science, University of Arkansas for Medical Sciences, Little Rock, AR, USA

autor

Garcia-Rill E.

• Department of Neurobiology and Developmental Science, University of Arkansas for Medical Sciences, Little Rock, AR, USA

autor

Mennemeier M.

• Department of Neurobiology and Developmental Science, University of Arkansas for Medical Sciences, Little Rock, AR, USA

Bibliografia

• Arciniegas D, Olincy A, Topkoff J, McRae K, Cawthra E, Filley CM, Reite M, Adler LE (2000) Impaired auditory gating and P50 nonsuppression following traumatic brain injury. J Neuropsychiatry Clin Neurosci 12: 77-85.
• Bastuji H, Perchet C, Legrain V, Montes C, Garcia-Larrea L (2008) Laser evoked responses to painful stimulation persist during sleep and predict subsequent arousals. Pain 137: 589-599.
• Buchwald JS, Rubinstein EH, Schwafel J, Strandburg RJ (1991) Midlatency auditory evoked responses: Differential effects of a cholinergic agonist and antagonist. Electroenceph Clin Neurophysiol 80: 303-309.
• Campbell BA, Lynch GS (1969) Cortical modulation of spontaneous activity during hunger and thirst. J Comp Physiol Psychol 67: 15-22.
• Chang P, Arendt-Nielsen L, Chen AC (2002) Differential cerebral responses to aversive auditory arousal versus muscle pain: specific EEG patterns are associated with human pain processing. Exp Brain Res 147: 387-393.
• Cools AR, van Rossum JM (1970) Caudal dopamine and stereotype behaviour of cats. Arch Int Pharmacodyn Ther 187: 163-173.
• Deffenbacher KA (1994) Effects of arousal on everyday memory. Human Performance 7: 141-161.
• Ermutlu MN, Karamursel S, Ugar EH, Senturk L, Gokhan N (2005) Effects of cold stress on early and late stimulus gating. Psychiatr Res 136: 201-209.
• Erwin RJ, Buchwald JS (1986a) Midlatency auditory evoked responses: differential effects of sleep in the human. Electroenceph Clin Neurophysiol 65: 383-392.
• Erwin RJ, Buchwald JS (1986b) Midlatency auditory evoked responses: differential recovery cycle characteristics. Electroenceph Clin Neurophysiol 64: 417-423.
• Erwin RJ, Buchwald JS (1987) Midlatency auditory evoked responses in the human and in the cat model. In: Current Trends in Event-related Potential Research (Johnson R, Rohrbaugh JW, Parasweraman R, Eds). Elsevier, Amsterdam, NL, p. 461-467.
• Findlay IN, Gillin G, Cunningham AD, Elliott AT, Aitchinson T, Dargie HJ (1988) A comparison of isometric exercise, cold pressor stimulation and dynamic exercise in patients with coronary heart disease. Eur Heart J 9: 657-664.
• Frankenstein UN, Richter W, McIntyre MC, Remy F (2001) Distraction modulates anterior cingulate gyrus activations during the cold pressor test. NeuroImage 14: 827-836.
• Fulbright RK, Troche CJ, Skudlarski P, Gore JC, Wexler BE (2001) Functional MR imaging of regional brain activa­tion associated with the affective experience of pain. Am J Roentgenol 177: 1205-10.
• Garcia-Rill E, Skinner RD (2002) The sleep state-dependent P50 midlatency auditory evoked potential. In: Sleep Medicine (Lee-Chiong TL, Sateia MJ, Carskadon MA, Eds). Hanley & Belfus, Philadelphia, PA.
• Garcia-Rill E, Skinner RD, Clothier J, Dornhoffer J, Uc E, Fann A, Mamiya N (2002) The sleep state-dependent midlatency auditory evoked P50 potential in various dis­orders. Thalamus Relat Syst 36: 1-11.
• Garcia-Rill E, Moran K, Garcia J, Findley WM, Walton K (2008) Magnetic sources of the M50 response are local­ized to frontal cortex. Clin Neurophysiol 119: 388­398.
• Graham FK, Clifton RK (1966) Heart rate change as a compo­nent of the orienting response. Psychol Bull 65: 305-320.
• Hall RW, Wallace-Huitt T, Thapa R, Williams DK, Anand KJS, Garcia-Rill E (2008) Long-term deficits of preterm birth: Evidence for arousal and attentional disturbances. Clin Neurophysiol 119: 1281-1291.
• Harper RM, Gozal D, Bandler R, Spriggs D, Lee J, Alger J (1998) Regional brain activation in humans during respi- eratory and blood pressure challenges. Clin Exp Pharmacol Physiol 25: 483-486.
• Hetrick WP, Sandman CA, Bunney WE, Jin Y, Potkin SG, White MH (1996) Gender differences in gating of the auditory evoked potential in normal subjects. Biol Psychiatry 39: 51-58,
• Irimajiri R, Golob EJ, Starr A (2005) Auditory brainstem, middle- and long latency evoked potentials in mild cogni­tive impairment. Clin Electroencephalogr 116: 1918-1929.
• Johnson MR, Adler LE (1993) Transient impairment in P50 auditory sensoty gating induced by a cold pressor test. Biol Psychiatry 33: 380-387.
• Kevanishvili Z, von Specht H (1979) Human auditory evoked potentials during natural and drug-induced sleep. Electroenceph Clin Neurophysiol 47: 280-288.
• Knight RT, Scabini D, Woods DL (1989) Prefrontal cortex gating of auditory transmission in humans. Brain Res 504: 338-42.
• Konopacki J, Gralewicz K, Gralewicz S, Lewinska MK (1986) The effect of amphetamine on hippocampal EEG and EOG activity in cats. Acta Neurobiol Exp (Wars) 46: 37-45.
• Llinas R, Ribary U, Contreras D, Pedreoarena C (1998) The neuronal basis for consciousness. Phil Trans R Soc B 353: 1841-1849.
• McLaren A, Kerr S, Allan L, Steen IN, Ballard C, Allen J, Murray A, Kenny RA (2005) Autonomic function is impaired in elderly stroke survivors. Stroke 36: 1026-1030
• Mennemeier MS, Chelette KC, Woods AJ, Hudson J, Dewi E, Taylor-Cooke PA, Wallace T, Skinner RD (2007) The P50 ERP is sensitive to arousal states in both neglect and normal subjects. J Int Neuropsych Soc 13: S39.
• Mitchell LA, Raymond A, MacDonald R, Brodie EE (2004) Temperature and the cold pressor test. J Pain 5: 233-238.
• Miyazato H, Skinner RD, Garcia-Rill E (2000) Locus coeruleus involvement in the effects of immobilization stress on the p13 midlatency auditory evoked potential in the rat. Prog Neuropsychopharmacol Biol Psychiatry 7: 1177-1201.
• Mizushima T, Tajima F, Nakamura T, Yamamoto M, Lee K, Ogata H (1998) Muscle sympathetic nerve activity during cold pressor test in patients with cerebrovascular acci­dents. Stroke 29: 607-612.
• Northcote R, Cooke M (1987) How useful are the cold pres- sor test and sustained isometric handgrip exercise with radionuclide ventriculography in the evaluation of patients with coronary artery disease? Br Heart J 57: 319-328.
• Rasco LM, Skinner RD, Garcia-Rill E (2000) Effects of age on sensory gating of sleep state dependent P1/P50 midlatency auditory evoked potentials. Sleep Res Online 3: 97-105
• Saab P, Llabre M, Hurwitz B, Schneiderman N, Wohlgenuth W, Durel LA, Massie C, Nagel J (1993) The cold pressor test: vascular and myocardial response patterns and their stability. Psychophysiology 30: 366-373.
• Skinner JE, Yingling CD (1977) Reconsideration of the cerebral mechanisms underlying selective attention and slow potential shifts. In: Attention, Voluntary Contraction and Event-related Cerebral Potentials. Progress in Clinical Neurophysiology, Vol 1 (Desmedt JE, Ed.). Karger, Basel, CH. p. 30-69.
• Skinner RD, Rasco LM, Fitzgerald J, Karson CN, Matthew M, Williams DK, Garcia-Rill E (1999) Reduced sensory gating of the P1 potential in rape victims and combat veterans with posttraumatic stress disorder. Dep Anxiety 9: 122-130.
• Skinner RD, Miyazato H, Garcia-Rill E (2002) The sleep state-dependent P50 auditory evoked potential in neurop­sychiatry diseases. Int Congr Ser 1232: 813-825.
• Smith DA, Boutros NN, Schwarzkopf SB (1994) Reliability of P50 auditory event-related potential indices of sensory gating. Psychophysiology 31: 495-502.
• Sturm W, Willmes K (2001) On the functional neuroanatomy of intrinsic and phasic alertness. Neuroimage 14: S76-S84.
• Tackett R L, Webb J G, Privitera P J (1981) Cerebroventricular propranolol elevates cerebrospinal fluid norepinephrine and lowers blood pressure. Science 213: 911-913.
• Teo C, Rasco L, Al-Mefty K, Skinner RD, Garcia-Rill E (1997) Decreased habituation of midlatency auditory evoked responses in Parkinson's disease. Movement Disord 12: 655-664.
• Teo C, Rasco L, Skinner RD, Garcia-Rill E (1998) Effect of pallidotomy on the disinhibition of the P1 midlatency auditory evoked responses in Parkinsonism. Sleep Res Online 1: 62-70.
• Uc EY, Skinner RD, Rodnitzky RL, Garcia-Rill E (2003) The midlatency auditory evoked potential P50 is abnor­mal in Huntington's disease. J Neurol Sci 212: 1-5.
• VaezMousavi M, Barry RJ, Rushby JA, Clarke AR (2007) Arousal and activation effects on physiological and behavioral responding during a continuous performance task. Acta Neurobiol Exp (Wars) 67: 461-470.
• Waters D, Szlachcic J, Bonan R, Miller D, Dauwe F, Theroux P (1983) Comparative sensitivity of exercise, cold pressor and ergonovine testing in provoking attacks of variant angina in patients with active disease. Circulation 67: 310-315.
• Woo Ma, Macey PM, Keens PT, Kumar R, Fonarow GC, Hamilton MA, Harper RM (2005) Functional abnormali­ties in brain areas that mediate autonomic nervous system control in advanced heart failure. J Card Fail 11: 437­446.
• Woods AJ, Mennemeier M, Garcia-Rill E, Wallace T, Chelette KC, et al. (2011) Improvement in arousal, visual neglect, and perception of stimulus intensity following cold pressor stimulation. Neurocase, in press, accepted February 2011.
• Yerkes RM, Dodson JD (1908) The relation of strength of stimulus to rapidity of habit formation. Journal of Comparative Neurology and Psychology 18: 459-482.

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