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Stewart, Lauren; Von Kriegstein, K.; Warren, Jason D.; Griffiths, Timothy D. (2006)
Languages: English
Types: Article
Subjects:

Classified by OpenAIRE into

mesheuropmc: humanities, behavioral disciplines and activities, human activities, otorhinolaryngologic diseases, psychological phenomena and processes
The study of the brain bases for normal musical listening has advanced greatly in the last 30 years. The evidence from basic and clinical neuroscience suggests that listening to music involves many cognitive components with distinct brain substrates. Using patient cases reported in the literature, we develop an approach for understanding disordered musical listening that is based on the systematic assessment of the perceptual and cognitive analysis of music and its emotional effect. This approach can be applied both to acquired and congenital deficits of musical listening, and to aberrant listening in patients with musical hallucinations. Both the bases for normal musical listening and the clinical assessment of disorders now have a solid grounding in systems neuroscience.
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    • Aizenberg D, Schwartz B, Modai I. Musical hallucinations, acquired deafness, and depression. J Nerv Ment Dis 1986; 174: 309-11.
    • Aizenberg D, Dorfman-Etrog P, Zemishlany Z, Hermesh H. Musical hallucinations and hearing deficit in a young non-psychotic female. Psychopathology 1991; 24: 45-8.
    • Allen JR. Salicylate-induced musical perceptions. N Engl J Med 1985; 313: 642-3.
    • Amunts K, Schlaug G, Jancke L, Steinmetz H, Schleicher A, Dabringhaus A, et al. Motor cortex and hand motor skills: structural compliance in the human brain. Hum Brain Mapp 1997; 5: 206-15.
    • Ashburner J, Friston KJ. Voxel-based morphometry-the methods. Neuroimage 2000; 11: 805-21.
    • Ayotte J, Peretz I, Rousseau I, Bard C, Bojanowski M. Patterns of music agnosia associated with middle cerebral artery infarcts. Brain 2000; 123: 1926-38.
    • Brain 2002; 125: 238-51.
    • Baba A, Hamada H, Kocha H. Musical hallucinations in schizophrenia. 2. Relations with verbal hallucinations.
    • Psychopathology 2003; 36: 104-10.
    • Belin P, Zatorre RJ, Lafaille P, Ahad P, Pike B. Voice-selective areas in human auditory cortex. Nature 2000; 403: 309-12.
    • Bendor D, Wang X. The neuronal representation of pitch in primate auditory cortex. Nature. 2005; 436: 1161-5.
    • Bengtsson SL, Nagy Z, Skare S, Forsman L, Forssberg H, Ullen F. Extensive piano practicing has regionally specific effects on white matter development. Nat Neurosci 2005; 8: 1148-50.
    • Bentley A. Measures of musical abilities. London: NEFR-Nelson; 1985. Berrios GE. Musical hallucinations. A historical and clinical study. Br J Psychiatry 1990; 156: 188-94.
    • Berrios GE. Musical hallucinations: a statistical analysis of 46 cases. Psychopathology 1991; 24: 356-60.
    • Bever TG, Chiarello RJ. Cerebral dominance in musicians and nonmusicians. Science 1974; 185: 537-9.
    • Blood AJ, Zatorre R. Intensely pleasurable responses to music correlate with activity in brain regions implicated in reward and emotion. Proc Natl Acad Sci USA 2001; 98: 11818-23.
    • Blood AJ, Zatorre RJ, Bermudez P, Evans AC. Emotional responses to pleasant and unpleasant music correlate with activity in paralimbic brain regions. Nat Neurosci 1999; 2: 382-7.
    • Bregman AS. Auditory scene analysis. Cambridge, MA: MIT Press; 1990. Brown S, Martinez MJ, Parsons LM.
    • Passive music listening spontaneously engages limbic and paralimbic systems. Neuroreport 2004; 15: 2033-7.
    • Brust JC. Music and language: musical alexia and agraphia. Brain 1980; 103: 367-92.
    • Caclin A, McAdams S, Smith BK, Winsberg S. Acoustic correlates of timbre space dimensions: a confirmatory study using synthetic tones. J Acoust Soc Am 2005; 118: 471-82.
    • Cascino GD, Adams RD. Brainstem auditory hallucinosis. Neurology 1986; 36: 1042-7.
    • Cerrato P, Imperiale D, Giraudo M, Baima C, Grasso M, Lopiano L, et al. Complex musical hallucinosis in a professional musician with a left subcortical haemorrhage. J Neurol Neurosurg Psychiatry 2001; 71: 280-1.
    • Clark J. Case history of a patient with musical hallucinations and Parkinson's disease. Int J Geriatr Psychiatry 1998; 13: 886-7.
    • Cole MG, Dowson L, Dendukuri N, Belzile E. The prevalence and phenomenology of auditory hallucinations among elderly subjects attending an audiology clinic. Int J Geriatr Psychiatry 2002; 17: 444-52.
    • Confavreux C, Croisile B, Garassus P, Aimard G, Trillet M. Progressive amusia and aprosody. Arch Neurol 1992; 49: 971-6.
    • Couper J. Unilateral musical hallucinations and all that jazz. Aust NZ J Psychiatry 1994; 28: 516-9.
    • Gilbert GJ. Pentoxifylline-induced musical hallucinations. Neurology 1993; 43: 1621-2.
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