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The Decision to Make a Movement: Neurophysiological Insights

Published online by Cambridge University Press:  18 September 2015

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Abstract:

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It is unclear how the brain enables a subject to discriminate between two or more sensory stimuli and to respond appropriately to them. This process must include the ability to detect and identify the stimuli, and to select and initiate an appropriate motor response. With the advent of improved computer technology, this behavior can now be studied in the laboratory, not only by monitoring the input to (stimulus) and output from the brain (response), but also by measuring the associated electrical activity of the brain in order to gain an understanding of how this task is accomplished. In this paper we discuss our work in this area and its relevance to understanding the neural organization of the decision to make a movement in response to a sensory stimulus.

Type
Review Article
Information
Canadian Journal of Neurological Sciences , Volume 24 , Issue 3 , August 1997 , pp. 181 - 190
Copyright
Copyright © Canadian Neurological Sciences Federation 1997

References

REFERENCES

1.Sutton, S, Braren, M, Zubin, J, John, ER. Evoked potential correlates of stimulus uncertainty. Science 1965; 50: 11871188.Google Scholar
2.Donchin, E, Ritter, W, McCallum, WC. Cognitive psychophysiology: the endogenous components of the ERR In: Calloway, E, Tueting, P, Koslow, S, eds. Event-related Brain Potentials in Man. New York: Academic Press, 1978: 349411.Google Scholar
3.Tueting, P. Event-related potentials, cognitive events and information processing: a summary of issues and discussion. In: Otto, D, ed. Multidisciplinary Perspectives in Event-Related Brain Potential (ERP) Research. Washington, DC: US Government Printing Office, 1978: 159169.Google Scholar
4.Duncan-Johnson, CC. P300 latency: a new metric of information processing. Psychophysiology 1981; 18: 207215.Google Scholar
5.Hillyard, SA, Kutas, M. Electrophysiology of cognitive processing. Ann Rev Psychol 1983; 34: 3361.CrossRefGoogle ScholarPubMed
6.Duncan-Johnson, CC, Donchin, E. On quantifying surprise: the variation of event-related potentials with subjective probability. Psychophysiology 1977; 14: 456467.Google Scholar
7.Squires, K, Petuchowski, S, Wickens, C, Donchin, E. The effects of stimulus sequence on event related potentials: a comparison of visual and auditory sequences. Percept Psychophys 1977; 22: 3140.Google Scholar
8.Squires, KC, Wickens, C, Squires, NC, Donchin, E. The effect of stimulus sequence on the waveform of the cortical event-related potential. Science 1976; 193: 11421146.Google Scholar
9.Klinke, R, Fruhstorfer, H, Finkenzeller, P. Evoked responses as a function of external and stored information. Electroencephalogr Clin Neurophysiol 1968; 25: 119122.CrossRefGoogle ScholarPubMed
10.Picton, TW, Hillyard, SA. Human auditory evoked potentials·II: effects of attention. Electroencephalogr Clin Neurophysiol 1974; 36: 191199.Google Scholar
11.Picton, TW, Hillyard, SA, Krausz, HI, Galambos, R. Human auditory evoked potentials I: evaluation of components. Electroencephalogr Clin Neurophysiol 1974; 36: 179190.Google Scholar
12.Goodin, DS, Squires, KC, Starr, A. Variations in early and late eventrelated components of the auditory evoked potential with task difficulty. Electroencephalogr Clin Neurophysiol 1983; 55: 680686.CrossRefGoogle ScholarPubMed
13.Ritter, W, Simson, R, Vaughan, HG Jr., Association cortex potentials and reaction time in auditory discrimination. Electroencephalogr Clin Neurophysiol 1972; 33: 547555.Google Scholar
14.Ford, JM, Roth, WT, Kopell, BS. Auditory evoked potentials to unpredictable shifts in pitch. Psychophysiology 1976; 13: 3239.Google Scholar
15.Kutas, M, McCarthy, G, Donchin, E. Augmenting mental chronometry: the P300 as a measure of stimulus evaluation time. Science 1977; 197: 792795.Google Scholar
16.McCarthy, G, Donchin, E. A metric for thought: a comparison of P300 latency and reaction time. Science 1981; 211: 7780.Google Scholar
17.Magliero, A, Bashore, TR, Coles, MGH, Donchin, E. On the dependence of P300 latency on stimulus evaluation processes. Psychophysiology 1984; 21: 171186.Google Scholar
18.Roth, WT, Ford, JM, Kopell, BS. Long latency evoked potentials and reaction time. Psychophysiology 1978; 15: 1723.Google Scholar
19.Goodin, DS, Aminoff, MJ. The relationship between the evoked potential and brain events in sensory discrimination and motor response. Brain 1984; 107: 241251.CrossRefGoogle ScholarPubMed
20.Goodin, DS, Aminoff, MJ, Mantle, MM. Subclasses of event-related potentials: response-locked and stimulus-locked components. Ann Neurol 1986; 20: 603609.Google Scholar
21.Goodin, DS, Aminoff, MJ, Mantle, MM. Sensory discrimination and its relationship to the cerebral processing of infrequent stimuli. Can J Neurol Sci 1987; 14: 642648.Google Scholar
22.Goodin, DS, Aminoff, MJ, Shefrin, SL. Organization of sensory discrimination and response selection in choice and non-choice conditions: a study using cerebral evoked potentials in normal humans. J Neurophysiol 1990; 64: 12701281.Google Scholar
23.Wellford, AT. Choice reaction times: basic concepts. In: Wellford, AT, ed. Reaction Times. London: Academic Press, 1980: 73128.Google Scholar
24.Ortiz, TA, Goodin, DS, Aminoff, MJ. Neural processing in a threechoice reaction-time task: a study using cerebral evoked-potentials and single-trial analysis in normal humans. J Neurophysiol 1993; 69: 14991511.Google Scholar
25.Goodin, DS, Aminoff, MJ, Ortiz, TA. Expectancy and response strategy to sensory stimuli. Neurology 1993; 43: 21392142.Google Scholar
26.Goodin, DS, Aminoff, MJ, Ortiz, TA, Chequer, RS. Response times and handedness in simple reaction-time tasks. Exp Brain Res 1996; 109: 117126.Google Scholar
27.Goodin, DS, Aminoff, MJ, Chequer, RS, Ortiz, TA. Response compatibility and the relationship between event-related potentials and the timing of a motor response. J Neurophysiol 1996; 76: 37053713.Google Scholar
28.Falkenstein, M, Hohnsbein, J, Hoormann, J, Blanke, L. Effects of crossmodal divided attention on late ERP components. II. Error processing in choice reaction tasks. Electroencephalogr Clin Neurophysiol 1991; 78: 447455.Google Scholar
29.Scheffers, MK, Coles, MGH, Bernstein, P, Gehring, WJ, Donchin, E. Event-related brain potentials and error-related processing: an analysis of incorrect responses to go and no-go stimuli. Psychophysiology 1996; 33: 4253.Google Scholar