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Tytuł artykułu

ERPs and the evoked cardiac response to auditory stimuli: Intensity and cognitive load effects

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Języki publikacji
The evoked cardiac response (ECR) may be described as the sum of two independent response components: an initial HR deceleration (ECR1), and a slightly later acceleration (ECR2), hypothesized to reflect stimulus registration and cognitive processing load, respectively. This study investigated processing load effects in the ECR and the event-related potential (ERP). Stimulus intensity was varied within subjects, and cognitive load was varied between subjects, in a counting/no counting task with a long interstimulus interval. The ECR showed a significant effect of counting, but not intensity. ERPs showed the expected obligatory processing effects in the N1, and substantial effects of cognitive load in the Late Positive Complex. Both ERP components varied with intensity. These novel data offer support for ANS-CNS similarities in reflecting some aspects of stimulus processing, but further work is needed to understand the possible contribution of ERP subcomponents to these effects.
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Opis fizyczny
  • Brain and Behavior Research Institute and School of Psychology, University of Wollongong, Wollongong, Australia
  • Brain and Behavior Research Institute and School of Psychology, University of Wollongong, Wollongong, Australia
  • Barry RJ (1977a) Failure to find evidence of the unitary OR concept with indifferent low-intensity auditory stimuli. Physiol Psychol 5: 89-96.
  • Barry RJ (1977b) The effect of "significance" upon indices of Sokolov's orienting response: A new conceptualization to replace the OR. Physiol Psychol 5: 209-214.
  • Barry RJ (1978) Physiological changes in a reaction time task: Further problems with Sokolov's dimension of stimulus "significance". Physiol Psychol 6: 438-444.
  • Barry RJ (1984a) Preliminary processes in O-R elicitation. Acta Psychol 55: 109-142.
  • Barry RJ (1984b) The evoked cardiac response under pro­cessing load. Physiol Psychol 12: 35-40. Barry RJ (1984c) Trials effects in the evoked cardiac response under processing load. Physiol Psychol 12: 315-318.
  • Barry RJ (1987) Preliminary processes in orienting response elicitation. In: Advances in Psychophysiology (Vol 2). JAI Press Inc., Greenwich, CT, p. 131-195.
  • Barry RJ (1996) Preliminary process theory: towards an integrated account of the psychophysiology of cognitive processes. Acta Neurobiol Exp (Wars) 56: 469-484.
  • Barry RJ (2006) Promise versus reality in relation to the unitary orienting reflex: A case study examining the role of theory in psychophysiology. Int J Psychophysiol 62: 353-366.
  • Barry RJ (2009) Habituation of the orienting reflex and the development of preliminary process theory. Neurobiol Learn Mem 92: 235-242.
  • Barry RJ, James AL (1981) Fractionation of phasic respons­es in a dishabituation paradigm. Physiol Behav 26: 69-75.
  • Barry RJ, Tremayne P (1987) Separation of components in the evoked cardiac response under processing load. J Psychophysiol 1: 259-264.
  • Beagley HA, Knight JJ (1967) Changes in auditory evoked response with intensity. J Laryngol 81: 871-873.
  • Courchesne E, Hillyard SA, Galambos R (1975) Stimulus novelty, task relevance, and the visual evoked potential in man. Electroencephalogr Clin Neurophysiol 39: 131-143.
  • Donchin E, Coles MGH (1988) Is the P300 component a manifestation of context updating? Behav Brain Sci 11: 357-374.
  • Donchin E, Spencer KM, Dien J (1997) The varieties of deviant experience: ERP manifestations of deviance pro­cessors. In: Brain and Behavior: Past, Present, and Future of Deviance Detectors in the Brain (van Boxtel GJM, Bocker KBE, Eds.). The Netherlands University Press, Tilburg, p. 67-91.
  • Gaeta H, Friedman D, Hunt G (2003) Stimulus characteris­tics and task category dissociate the anterior and posterior aspects of novelty P3. Psychophysiology 40: 198-208.
  • Goldstein A, Spencer KM, Donchin E (2002) The influence of stimulus deviance and novelty on the P300 and Novelty P3. Psychophysiology 39: 781-790.
  • Hansen JC, Hillyard SA (1980) Endogenous brain potentials associated with selective auditory attention. Electroencephalogr Clin Neurophysiol 49: 277-290.
  • Johnson R Jr (1993) On the neural generators of the P300 component ofthe event-related potential. Psychophysiology 30: 90-97.
  • Kaiser J, Barry RJ, Beauvale A (2001) Evoked cardiac response correlates of cognitive processing and dimen­sions of personality: Eysenck's concept of psychoticism revisited. Pers Indiv Diff 30: 657-668.
  • Kaiser J, Beauvale A, Bener J, Barry RJ (1996) The evoked cardiac response in subjects differing on intelligence measured by standard progressive matrices. Polish Psychol Bull 27: 53-61.
  • Kaiser J, Wronka E, Barry RJ, Szczudlik A (1999) Evoked cardiac response components in cognitive processing: differential effects of amyotrophic lateral sclerosis. Acta Neurobiol Exp (Wars) 59: 329-334.
  • Lyytinen H, Blomberg A, Naatanen R (1992) Event-related potentials and autonomic responses to a change in unat­tended auditory stimuli. Psychophysiology 29: 523-534.
  • McCarthy G, Wood CC (1985) Scalp distributions of event- related potentials: An ambiguity associated with analysis ofvariance models. Electroencephalogr Clin Neurophysiol 62: 203-208.
  • Naatanen R (1986) The orienting response theory: An inte­gration of informational and energetic aspects of brain function. In: Adaptation to Stress and Task Demands: Energetical Aspects of Human Information Processing (Hockey GRJ, Gaillard AWK, Coles MGH, Eds). Matinus, Nijhoff.
  • Näätänen R (1990) The role of attention in auditory informa­tion processing as revealed by event-related potentials and other brain measures of cognitive function. Behav Brain Sci 13: 201-288.
  • Näätänen R, Picton T (1987) The N1 wave of the human electric and magnetic response to sound: a review and an analysis of the component structure. Psychophysiology 24: 375-425.
  • Näätänen R, Teder W, Alho K, Lavikainen J (1992) Auditory attention and selective input modulation: a topographic ERP study. NeuroReport 3: 493-496.
  • O'Brien RG, Kaiser MK (1985) MANOVA method for ana­lyzing repeated measures designs: an extensive primer. Psychol Bull 97: 316-333.
  • Picton TW, Hillyard SA (1974) Human auditory evoked potentials. II. Effects of attention. Electroencephalogr Clin Neurophysiol 36: 191-199.
  • Picton TW, Hillyard SA, Krausz HI, Galambos R (1974) Human auditory evoked potentials. Audiol Neurootol 36: 179-190.
  • Picton TW, Woods DL, Baribeau-Braun J, Healey TMG (1977) Evoked potential audiometry. The J Otolaryngol 6: 90-116.
  • Polich J (2007) Updating P300: An integrative theory of P3a and P3b. Clin Neurophysiol 118: 2128-2148.
  • Polich J, Ellerson PC, Cohen J (1996) P300, stimulus inten­sity, modality and probability. Int J Psychophysiol 23: 55-62.
  • Rushby JA, Barry RJ, Doherty RJ (2005) Separation of the components of the late positive complex in an ERP disha- bituation paradigm. Clin Neurophys 116: 2363-2380.
  • Rushby JA, Gonzalves CJ, Barry RJ, Polich J (2004) TTI and tone intensity effects on the P3. Aust J Psychol 56 (Suppl.): 51.
  • Semlitsch HV, Anderer P, Schutster P, Presslich O (1986) A solution for reliable and valid reduction of ocular artifacts, applied to the P300 ERP. Psychophysiology 23: 695-703.
  • Simons RF, Graham FK, Miles MA, Balaban MT (1998) Input and central processing expressed in ERP and heart rate changes to rare target and rare nontarget stimuli. Psychophysiology 35: 563-575.
  • Snyder E, Hillyard S (1976) Long latency evoked poten­tials to irrelevant, deviant stimuli. Behav Biol 16: 319­331.
  • Squires KC, Donchin E, Herning RI, McCarthy G (1977) On the influence of task relevance and stimulus probability on event-related potential components. Electroencephalogr Clin Neurophysiol 42: 1-14.
  • Squires KC, Hillyard SA, Lindsay PH (1973) Vertex poten­tials evoked during auditory detection: Relation to deci­sion criteria. Percept Psychophysiol 14: 265-272.
  • Squires NK, Squires KC, Hillyard SA (1975a) Decision- related cortical potentials during an auditory signal detec­tion task with cued observation intervals. J Exp Psychol Hum Percept Perform 1: 268-279.
  • Squires NK, Squires KC, Hillyard SA (1975b) Two varieties of long-latency positive waves evoked by unpredictable auditory stimuli in man. Electroencephalogr Clin Neurophysiol 38: 387-401.
  • Sutton S, Tueting P, Zubin J, John ER (1965) Evoked poten­tial correlates of stimulus uncertainty. Science 150: 1187-1188.
  • Tabachnick BG, Fidell LS (1996) Using Multivariate Statistics (3rd ed.). HarperCollins, New York, NY.
  • Vaughan HG Jr, Ritter W (1970) The sources of auditory evoked responses recorded from the human scalp. Electroencephalogr Clin Neurophysiol 28: 360-367.
  • Velden M, Wölk C (1987) Depicting cardiac activity over real time: a proposal for standardization. J Psychophysiol: 173-175.
  • World Medical Organisation (1996) Declaration of Helsinki. Br Med J 13: 1448-1449.
  • Wronka E, Kaiser J, Coenen AML (2008) The auditory P3 from passive and active three-stimulus oddball paradigm. Acta Neurobiol Exp (Wars) 68: 362-372.
  • Zimmer H, Vossel G, Frohlich WD (1991) Significance of heart rate deceleration in pattern recognition tasks (in German). Z Exp Angew Psychol 38: 499-519.
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