Abstract
After Cannon demonstrated that certain autonomic effects in emotion are of survival value for the organism, the recording of psychophysiological changes became a popular activity. James declared that such organic changes are the emotion, and as a basis for understanding and differentiating emotions in terms of nervous system functions, many investigators attempted to trace back and identify autonomic effects during emotional states with the dominance of either the sympathetic or parasympathetic division of the autonomic system. It was clear, however, that no adequate description or understanding of emotion, motivation, behavior, or other psychic phenomena was possible without consideration of events in the central nervous system. It seemed a great breakthrough, therefore, when Berger, by means of the electroencephalogram (EEG), rendered accessible from outside the intact skull clues to happenings within the brain.
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References
Sutton, S., Tueting, P., Zubin, J., and John, E.R.: Information delivery and the sensory evoked potential, Science 155:1437, 1967.
Walter, W.G., Cooper, R., Aldridge, V.J., McCallum, W.C., and Winter, A.C.: Contingent negative variation: An electrical sign of sensorimotor association and expectancy in the human brain. Nature 203:380, 1964.
Cohen, J., and Walter, W.G.: The interaction of responses in the brain to semantic stimuli, Psychophysiology 2:187, 1966.
McAdam, D.W., Irwin, D.A., Rebert, C.S., and Knott, J.R.: Conative control of the contingent negative variation, Electroencephalog. Clin. Neurophysiol. 21:194, 1966.
Irwin, D.A., Knott, J.R., McAdam, D.W., and Rebert, C.S.: Motivational determinants of the “contingent negative variation,” Electroencephalog. Clin. Neurophysiol. 21:538, 1966.
Schade, J.P., Origin of the spontaneous electrical activity of the cerebral cortex, in: Wortis, J. (ed.), Recent Advances in Biological Psychiatry, Grune & Stratton, New York, 1960, p. 23.
Eccles, Sir J.: Physiological basis of the EEG, Symposium at the Annual Meeting of the Central Association of Electroencephalographers, April, 1967.
Walter, W.G.: Physiological basis of the EEG, Symposium at the Annual Meeting of the Central Association of Electroencephalographers, April, 1967.
Adrian, E.D.: The physiological basis of perception, in: Adrian, E.D., et al. (eds.), Brain Mechanisms and Consciousness, C.C. Thomas, Springfield, 1954, p. 237.
Darrow, C.W., and Smith, H.F.: An instrument for automatic scoring of EEG phase relationships, Electroencephalog. Clin. Neurophysiol. 16:614, 1964.
Storm Van Leeuwen, W.: Complimentarity of different analysis methods, Electroencephalog. Clin. Neurophysiol. 16:136, 1964.
Darrow, C.W.: Interarea electroencephalographic phase relationships, in: Brown, C.C. (ed.). Methods in Psychophysiology, Williams & Williams, Baltimore, 1967, Chapter 5.
Gullickson, G.R., Rosenberg, B., and Darrow, C.W.: Anticipatory and evoked EEG phase effects relating to serially presented sitmuli, Electroencephalog. Clin. Neurophysiol. 22:188, 1967.
Darrow, C.W., Wilson, J.P., Vieth, R.N., and Maller, J.M.: Acceleration and momentum in cerebral function reflected in EEG phase relations, in: Wortis, J. (ed.), Recent Avances in Biological Psychiatry, Grune & Stratton, New York, 1960, p. 51.
Gullickson, G.R., Darrow, C.W., and Cohen, J.: EEG time (phase) and polarity (CNV) relationships during mental activity. Annual Meeting of the Society for Psychophysiological Research, Denver, October, 1966.
Darrow, C.W., and Gullickson, G.R.: The CNV and phasic cortical effects of expectancy and conation. Fed. Proc. 26:373, 1967.
Gullickson, G.R., and Darrow, C.W.: Cortical changes varying with respiration during “expectancy”. Biennial Meeting of the Society for Research in Child Development, N.Y.C., March, 1967.
Sokolov, E.N.: Higher nervous functions: The orienting reflex, Ann. Rev. Physiol. 25:545, 1963.
Graham, F.K., and Clifton, R.K.: Heart-rate change as a component of the orienting response, Psychol. Bull. 65:305, 1966.
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Darrow, C.W., Gullickson, G.R. (1968). The Role of Brain Waves in Learning and Other Integrative Functions. In: Wortis, J. (eds) Recent Advances in Biological Psychiatry. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-9072-5_19
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DOI: https://doi.org/10.1007/978-1-4684-9072-5_19
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