References
- Beaumont J. G., Mayes A. R., Rugg M. D. Asymmetry in EEG alpha coherence and power: effects of task and sex. Electroencephalography & Clinical Neurophysiology 1978; 15: 393–401
- Bogen J. E., Gordon H. W. Musical tests for functional lateralization with intracarotid amobarbital. Nature 1971; 230: 524
- Borchgrevinck H. M. Prosody and musical rhythm are controlled by the speech hemisphere. Music, mind and brain, M. Clynes. Plenum Press, New York 1982; 155–157
- Brust C. J.M. Music and language: musical alexia and agraphia. Brain 1980; 103: 367–392
- Carmon A., Lavy S., Gordon H., Portnoy Z. Hemispheric differences in rCBF during verbal and non-verbal tasks. Brain work Munksgaard, D. H. Ingvar, N. A. Lessen. Alfred Benzon Symposium VIII, Copenhagen 1975; 414–443
- Clemente C. D., Sterman M. B., Wyrwicka W. Post-reinforcement EEG synchronization during alimentary behavior. Electroencephalography & Clinical Neurophysiology 1964; 355–365
- Corsi-Cabrera M., Gutiérrez S., Ramos J., Arce C. Interhemispheric correlation during successful and unsuccessful cognitive performance. International Journal of Neuroscience 1988; 39: 253–259
- Davidson R. J., Schwartz G. E. The influence of musical training on patterns of EEG asymmetry during musical and non-musical self generation tasks. Psychophysics 1977; 14: 38–43
- Ford M. R., Goethe J. W., Dekker D. K. EEG coherence and power changes during a continuous movement task. International Journal of Psychophysiology 1986; 4: 99–110
- Gaede S. E., Parsons O. A., Bertera J. H. Hemispheric differences in music perception: aptitude vs experience. Neuropsychologia 1978; 16: 369–373
- Gordon H. W. Hemispheric asymmetries in the perception of musical chords. Cortex 1970; 6: 387–398
- Hagne I. Development of the waking EEG in normal infants during the first year of life. Clinical Electroencephalography in Children, P. Kallaway, I. Petersen. Grune and Stratton, New York 1968; 97–118
- Hydron S. P., Spellacy F. J. Monaural reaction time asymmetries for speech and non speech sounds. Cortex 1973; 9: 288–294
- Hirschkowitz M., Earle J., Paley B. EEG alpha asymmetry in musicians and non-musicians; a study of hemispheric specialization. Neuropsychology 1978; 16: 125–128
- Kallman H. J., Corballis M. C. Ear asymmetry in reaction time to musical sounds. Perception Psychophysics 1975; 17: 368–373
- Kellar L. A., Bever T. G. Hemispheric asymmetries in the perception of musical intervals as a function of musical experience and family handedness background. Brain & Language 1980; 10: 24–38
- Kimura D. Left-right differences in the perception of melodies. Quarterly Journal of Experimental Psychology 1964; 16: 355–358
- Maulsby L. An illustration of emotionally evoked theta rhythm in infancy: hedonic hypersynchrony. Electroencephalography & Clinical Neurophysiology 1971; 31: 157–165
- Osborne K., Gale O. Bilateral EEG differentiation of stimuli. Biological Psychology 1976; 4: 185–196
- Roederer J. G. Physics and Psychophysics of Music. Springer Verlag, New York 1979
- Shaw J. C., O'Connor K. P., Ongley C. The EEG as a measure of cerebral functional organization. British Journal of Psychiatry, 130: 260–264
- Wagner M. T., Hannon R. Hemispheric asymmetries in faculty and students musicians and nonmusicians during melody recognition tasks. Brain & Language 1981; 13: 379–388
- Walker J. L. Subjective reactions to music and brain wave rhythms. Physiological Psychology 1977; 5: 483–489
- Walter W. G. The living brain. W.W. Norton, New York 1953; 201–214