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Mental and Psychophysiological Tension at Professional Ballet Dancers' Performances and Rehearsals

Published online by Cambridge University Press:  22 July 2014

Summary

The purpose of this study was to examine basic psychophysiological response levels in professional ballet dancers and the effects of different performances on these responses. Electrical activity of the trapezius muscle, blood pressure, heart rate, and skin-conductance level were measured during a resting state and before, during, and after rehearsals, first-night performances, and shows performed from 10 to 50 times. Subjective mental tension during performance was evaluated, as was performance success. The influence of sex, age, experience, artistic level, role, and the type of performance were studied.

Principals had less tension in the trapezius muscle in the resting state than corps de ballet dancers and soloists. Principals' psychophysiological activation during performances was increased more than that of soloists and corps de ballet dancers as compared with baseline values. The type of performance influenced subjective mental tension and physiological responses. During the last general rehearsals (with an audience) physiological activation was higher than during first-night and other performances. Age and experience did not affect physiological activation. Sex differences in subjectively estimated success and mental tension, as well as in physiological measurements, were small.

Type
Articles
Copyright
Copyright © Congress on Research in Dance 1989

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References

Balshan, I.D., Gringer, R.R., Heath, H.A., Oken, D., and Shipman, W.G.Study in psychophysiology of muscle tension, I. Response specificity.” Archives of General Psychiatry, 11:322330, 1964.Google Scholar
Collins, A. and Frankenhaeuser, M.Stress responses in male and female engineering students.” Journal of Human Stress, 4:4348, 1978.CrossRefGoogle ScholarPubMed
Duffy, E.Activation and behaviour. New York: Wiley, 1962.Google Scholar
Edelberg, R.Electrodermal recovery rate, goal orientation and aversion.” Psychophysiology, 9:512520, 1972.CrossRefGoogle ScholarPubMed
Fahrenberg, J., Foerster, F., Schneider, H-J., Muller, W., and Myrtek, M.Predictability of individual differences in activation processes in a field setting based on laboratory measures.” Psychophysiology, 23:323333, 1986.CrossRefGoogle Scholar
Frankenhaeuser, M., Lundberg, U., Rauste von Wright, M., von Wright, J., and Sedval, G.Urinary monoamine metabolites as indices of mental stress in healthy males and females.” Pharmacological and Biochemical Research in Behaviour, 24:15211525, 1986.CrossRefGoogle ScholarPubMed
Hänninen, O., Heiskanen, P., Helin, P., Mahlamäki, S., Rauhala, E., and Remes, A.EMG: New possibilities in clinical work and training of athletes”. Finnish Sports and Exercise Medicine, 4:149156, 1985.Google Scholar
Helin, P. and Hänninen, O.Tension level at teaching test and its control by relaxation training.” Acta Physiologica Scandinavica, 124:393, 1985.Google Scholar
Helin, P. and Hänninen, O.Relaxation training affects activation and success at a teaching test.” International Journal of Psychophysiology, 5:275287, 1987.CrossRefGoogle Scholar
Helin, P. and Hänninen, O.Gender and personality effects on psychophysiological activation in an instructor candidates' teaching test.” Journal of Psychophysiology, 2:4959, 1988a.Google Scholar
Helin, P. and Hänninen, O.The Effects of extended audiocas-sette-relaxation training and running exercise on physiological responses during a teaching test.” Journal of Psychophysiology, 2:259267, 1988b.Google Scholar
Helin, P., Kuoppasalmi, K., Laakso, J., and Härkönen, M.Human urinary biogenic amines and some physiological responses during situation stress.” International journal of Psychophysiology, 6:125132, 1988.CrossRefGoogle Scholar
Helin, P., Mahlamäki, S., and Hänninen, O. “Ballet dancers' electrical activity of skeletal muscles in rest and working circumstances.” In preparation.Google Scholar
Helin, P., Nousiainen, U., and Hänninen, O.New method to determine motor point and electrical activity of muscle (EMG) during effort.” Electromyography and Clinical Neurophysiology, 26:217225, 1986.Google ScholarPubMed
Hokanson, J.E.The physiological bases of motivation. New York: Wiley, 1969.Google Scholar
Jones, M.T., Bridges, P.K., and Leak, D.Correlation between psychic and endocrinological responses to emotional stress.” Progress in Brain Research, 32:325335, 1970.CrossRefGoogle ScholarPubMed
Myrtek, M.Constitutional Psychophysiology. Research in Review. Orlando: Academic Press, 1984.Google Scholar
Näätänen, R. “The inverted-U relationship between activation and performance: A critical review.” in Kornblom, S. (ed.). Attention and performance IV, 155179. New York: Academic Press, 1973.Google Scholar
Remes, A., Rauhala, E., and Hänninen, O.Fully rectified, integrated, band (Frib-) EMG analysis in quantifying muscle activity. Development of a new field equipment.” Acta Physiologica Scandinavica, 537:6570, 1984.Google ScholarPubMed
Shipman, W.G., Oken, D., and Heath, H.A.Muscle tension and effort and self-control during anxiety.” Archives of General Psychiatry, 23:359368, 1970.CrossRefGoogle ScholarPubMed
Wright, B.M. and Dore, C.F.A random-zero sphygmomanometer.” Lancet, 1:337338, 1970.Google ScholarPubMed