Abstract
Background and aims: Controversial evidence suggests that music can enhance cognitive performance. In the present study, we examined whether listening to an excerpt of Vivaldi’s “Four Seasons” had a positive effect on older adults’ cognitive performance in two working memory tasks. Methods: With a repeated-measures design, older adults were presented with the forward version of the digit span and phonemic fluency in classical music, white-noise and no-music conditions. Results: Classical music significantly increased working memory performance compared with the no-music condition. In addition, this effect did not occur with white noise. Conclusion: The authors discuss this finding in terms of the arousal-and-mood hypothesis and the role of working memory resources in aging.
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References
Wallace WT. Memory for music: effect of melody on recall of text. J Exp Psychol: Learn, Mem & Cogn 1994; 20: 1471–85.
Schellenberg EG. Music and cognitive abilities. Current Directions in Psychol Sci 2005; 14: 317–20.
Fox LS, Knight BG, Zelinski E. Mood induction with older adults: A tool for investigating effects of depressed mood. Psychol Aging 1998; 13: 519–23.
Moreno R, Mayer RE. A Coherence effect in multimedia learning: the case for minimizing irrelevant sounds in the design of multimedia instructional messages. J Educ Psychol 2000; 92: 117–25.
Rauscher FH, Shaw G. Key components of the Mozart effect. Percept Mot Skills 1998; 86: 835–42.
Foster NA, Valentine ER. The effect of auditory stimulation on autobiographical recall in dementia. Exp Aging Res 2001; 27: 215–28.
Rauscher FH, Shaw GL, Ky KN. Music and spatial task performance. Nature 1993; 365: 611.
Nantais KM, Schellenberg EG. The Mozart effect: an artifact of preference. Psychol Sci 1999; 10: 370–4.
Steele KM, Brown JD. Failure to confirm the Rauscher and Shaw description of recovery of the Mozart effect. Percept Mot Skills 1999; 88: 843–8.
McKelvie P, Low J. Listening to Mozart does not improve children’s spatial ability: final curtains for the Mozart effect. Brit J Dev Psychol 2002; 20: 241–59.
Steele KM, Bass KE, Crook, MD. The mystery of the Mozart effect: failure to replicate. Psychol Sci 1999; 10: 366–9.
Chabris CF, Steele KM, Dalla Bella S, et al. Prelude or requiem for the ‘Mozart effect’? Nature 1999; 400: 826–7.
Sherratt K, Thornton A, Hatton C. Music interventions for people with dementia: a review of the literature. Aging Ment Health 2004; 8: 3–12.
Irish M, Cunningham CJ, Walsh JB, et al. Investigating the enhancing effect of music on autobiographical memory in mild Alzheimer’s disease. Dement Geriatr Cogn Disord. 2006; 22:108–20.
Rahhal T, Hasher L, Colcombe SJ. Instructional manipulations and age differences in memory: now you see them, now you don’t. Psychol Aging 2001; 16: 697–707.
Eysenck MW. Arousal, learning and memory. Psychol Bull 1976; 83: 389–404.
Carlson S, Rama P, Artchakov D, Linnankoski I. Effects of music and white noise on working memory performance in monkeys. Neuroreport 1997; 8: 2853–6.
Rauscher FH, Robinson KD, Jens JJ. Improved maze learning through early music exposure in rats. Neurol Res 1998; 20: 427–32.
Thompson WF, Schellenberg EG, Husain G. Arousal, mood and the Mozart effect. Psych Science 2001; 12: 248–51.
Schulkind MD, Hennis LK, Rubin, D.C. Music, emotion, and autobiographical memory: they’re playing your song. Mem & Cogn 1999; 27: 948–55.
Thompson RG, Moulin CJA, Hayre S, Jones RW. Music enhances category fluency in healthy older adults and Alzheimer’s disease patients. Exp Aging Res 2005; 31: 91–9.
Baddeley A. Working Memory. Oxford: Oxford University Press, 1986.
Sharps MJ, Pollitt BK. Category superiority effects and the processing of auditory images. J Gen Psychol 1998; 125:109–16.
Janata P, Tillmann B, Bharucha JJ. Listening to polyphonic music recruits domain-general attention and working memory circuits. Cogn Affect Behav Neurosc 2002; 2:121–40.
Slevc LR, Miyake A. Individual differences in second-language proficiency: does musical ability matter? Psychol Sci 2006; 17: 675–81.
Ho YC, Cheung, MC, Chan AS. Music training improves verbal but not visual memory: cross-sectional and longitudinal explorations in children. Neuropsychol 2003; 17: 439–50.
Williamon A, Egner T. Memory structures for encoding and retrieving a piece of music: an ERP investigation. Brain Res Cogn Brain Res 2004; 22: 36–44.
Henry JD, Crawford JR, Phillips LH. Verbal fluency performance in dementia of the Alzheimer type: a meta-analysis. Neuropsychologia 2004; 42: 1212–22.
Hirokawa E. Effects of music listening and relaxation instructions on arousal changes and the working memory task in older adults. J Music Ther 2004; 41:107–27.
Folstein MF, Folstein SE, McHugh PR. Mini-Mental State: A practical method for grading the cognitive state of patients for the clinician. J Psychiatr Res 1975; 12: 189–98.
Mondini S, Mapelli D, Vestri A, Bisiacchi PS. Esame Neuropsicologico Breve. Milano: Raffaello Cortina Editore, 2003.
Daee S, Wilding JM. Effects of high intensity white noise on short-term memory for position in a list and sequence. Brit J Psychol 1977; 68: 335–49.
Pichora-Fuller MK, Schneider BA, Daneman M. How young and old adults listen to and remember speech in noise. J Acoust Soc Am. 1995; 97: 593–608.
Cornoldi C, Vecchi T. Visuo-spatial working memory and individual differences. Hove: Psychology Press, 2003.
Steele KM, Ball TN, Runk R. Listening to Mozart does not enhance backwards digit span performance. Percept Mot Skills 1997; 84:1179–84.
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Mammarella, N., Fairfield, B. & Cornoldi, C. Does music enhance cognitive performance in healthy older adults? The Vivaldi effect. Aging Clin Exp Res 19, 394–399 (2007). https://doi.org/10.1007/BF03324720
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DOI: https://doi.org/10.1007/BF03324720