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Music and human brain


Authors: F. Koukolík
Authors‘ workplace: Primář: MUDr. František Koukolík DrSc. ;  Národní referenční laboratoř prionových chorob ;  Fakultní Thomayerova nemocnice s poliklinikou, Praha ;  Oddělení patologie a molekulární medicíny
Published in: Prakt. Lék. 2009; 89(3): 120-124
Category: Various Specialization

Overview

This short and selective revue describes the relationship between the brain and music, music as an adaptation, phylogenesis and ontogenesis of music, the music-language relationship, the domain specificity and neuronal representation of music.

Key words:
music, human brain, neuronal representation.


Sources

1. Douglas, K.M., Bilkey, D.K. Amusia is associated with deficits in spatial processsing. Nat. Neurosci. 2007, 10, p. 915-921.

2. Fitch, W.T. The biology and evolution of music: a comparative perspective. Cognition 2006, 100, p. 173-215.

3. Gaser, Ch., Schlaug, G. Brain structures differ between musicians and non-musicians. J. Neuroscience 2003, 23, p. 9240-9245.

4. Gould, S.J., Lewontin, R.C. The spandrels of San Marco and panglossian paradigma of the adaptationist program. Proc. Royal Soc. London. B. 1979, 205, p. 581-598.

5. Koelsch, S., Siebel, W.A. Towards a neural basis of music perception. Trends in cognitive sciences 2005, 9, s.578-84.

6. Koukolík, F. Před úsvitem, po ránu. Eseje o dětech a rodičích. Praha: Karolinum, 2008. ISBN 978-80-246-1496-0.

7. Marques, C., Moreno, S., Castro, S.L. et al. Musicians detect pitch violation in a foreing language better than non-musicians: behavioral and electrophysiological evidence. J. Cogn. Neurosci. 2007,19, p.1453-1463

8. Miller, G. Evolution of human music through sexual selection. In: The origins of music. Wallin N, Merker B, Brown S (eds.) Cambridge, MA: MIT Press 2000, p. 329-360.

9. Nan, Y., Knösche, T.R., Zysset, S. et al. Cross cultural music prase processing: a fMR study. Hum. Brain Mapp. 2008, 29, p. 312-328.

10. Patel, A.D., Peretz, I., Tramo, M., et al. Processing prosodic and musical patterns: A neuropsychological investigation. Brain Lang. 1998, 61, p. 674-681.

11. Patston, L.L., Kirk, I.J., Rolfe, M.H. The unusual symmetry of musicians: musicians have equilateral interhemispheric transfer for visual information. Neuropsychologia 2007, 45, p. 2059-2065.

12. Peretz, I. Can we lose memory for music? The case of music agnosia in a nonmusician. J. Cogn. Neurosci. 1996, 8, p. 481-496.

13. Peretz, I. The nature of music from a biological perspective. Cognition 2006, 100, p. 1–32.

14. Peretz, I, Cummings. S., Dubé, M-P. The genetic of congenital amusia (tone deafness: a family aggregation study. Am. J. Hum. Gen. 2007, 81, p. 582-588.

15. Pinker, S. How the mind works. London: Allen Lane, 1997. ISBN 0-393-31848-6pbk.

16. Schön, D., Lorber, B., Spacal, M. et al. A selective deficit in the production of exact musical intervals following right-hemisphere damage. Cogn. Neuropsychol. 2004; 21: p. 773-784.

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