Hemispheric Asymmetry of Auditory Mismatch Negativity Elicited by Spectral and Temporal Deviants: A Magnetoencephalographic Study

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• 作者：Hidehiko Okamoto ; Ryusuke Kakigi
• 关键词：Auditory evoked response ; Hemispheric laterality ; Magnetoencephalography (MEG) ; Mismatch negativity (MMNm)
• 刊名：Brain Topography
• 出版年：2015
• 出版时间：May 2015
• 年：2015
• 卷：28
• 期：3
• 页码：471-478
• 全文大小：325 KB
• 参考文献：Alho K (1995) Cerebral generators of mismatch negativity (MMN) and its magnetic counterpart (MMNm) elicited by sound changes. Ear Hear 16:38鈥?1View Article PubMed
  Alho K, Connolly JF, Cheour M, Lehtokoski A, Huotilainen M, Virtanen J, Aulanko R, Ilmoniemi RJ (1998) Hemispheric lateralization in preattentive processing of speech sounds. Neurosci Lett 258:9鈥?2View Article PubMed
  Belin P, Zilbovicius M, Crozier S, Thivard L, Fontaine A (1998) Lateralization of speech and auditory temporal processing. J Cogn Neurosci 10:536鈥?40View Article PubMed
  Belin P, Zatorre RJ, Lafaille P, Ahad P, Pike B (2000) Voice-selective areas in human auditory cortex. Nature 403:309鈥?12View Article PubMed
  Bendor D, Wang XQ (2007) Differential neural coding of acoustic flutter within primate auditory cortex. Nat Neurosci 10:763鈥?71View Article PubMed
  Boemio A, Fromm S, Braun A, Poeppel D (2005) Hierarchical and asymmetric temporal sensitivity in human auditory cortices. Nat Neurosci 8:389鈥?95View Article PubMed
  Broca P (1861) Remarques sur le si茅ge de la facult茅 du langage articul茅 suivies d鈥檜ne observation d鈥檃ph茅mie (perte de la parole). Bull Soc Anat 6:330鈥?57
  Drullman R, Festen JM, Plomp R (1994a) Effect of reducing slow temporal modulations on speech reception. J Acoust Soc Am 95:2670鈥?680View Article PubMed
  Drullman R, Festen JM, Plomp R (1994b) Effect of temporal envelope smearing on speech reception. J Acoust Soc Am 95:1053鈥?064View Article PubMed
  Eulitz C, Diesch E, Pantev C, Hampson S, Elbert T (1995) Magnetic and electric brain activity evoked by the processing of tone and vowel stimuli. J Neurosci 15:2748鈥?755PubMed
  Griffiths TD, Johnsrude I, Dean JL, Green GG (1999) A common neural substrate for the analysis of pitch and duration pattern in segmented sound? Neuroreport 10:3825鈥?830View Article PubMed
  Hillebrand A, Barnes GR (2002) A quantitative assessment of the sensitivity of whole-head MEG to activity in the adult human cortex. Neuroimage 16:638鈥?50View Article PubMed
  Jamison HL, Watkins KE, Bishop DV, Matthews PM (2006) Hemispheric specialization for processing auditory nonspeech stimuli. Cereb Cortex 16:1266鈥?275View Article PubMed
  Joos M (1948) Acoustic phonetics. Language monograph, vol 23. Linguistic Society of America, Baltimore
  Kujala T, Tervaniemi M, Schroger E (2007) The mismatch negativity in cognitive and clinical neuroscience: theoretical and methodological considerations. Biol Psychol 74:1鈥?9View Article PubMed
  Lappe C, Steinstr盲ter O, Pantev C (2013) A beamformer analysis of MEG data reveals frontal generators of the musically elicited mismatch negativity. PLoS One 8:e61296View Article PubMed Central PubMed
  Moore BCJ (2003) An introduction to the psychology of hearing. Academic Press, Boston
  N盲盲t盲nen R, Picton T (1987) The N1 wave of the human electric and magnetic response to sound: a review and an analysis of the component structure. Psychophysiology 24:375鈥?25View Article PubMed
  N盲盲t盲nen R, Gaillard AW, M盲ntysalo S (1978) Early selective-attention effect on evoked potential reinterpreted. Acta Psychol 42:313鈥?29View Article
  N盲盲t盲nen R, Paavilainen P, Rinne T, Alho K (2007) The mismatch negativity (MMN) in basic research of central auditory processing: a review. Clin Neurophysiol 118:2544鈥?590View Article PubMed
  Okamoto H, Stracke H, Draganova R, Pantev C (2009) Hemispheric asymmetry of auditory evoked fields elicited by spectral versus temporal stimulus change. Cereb Cortex 19:2290鈥?297View Article PubMed
  Okamoto H, Teismann H, Kakigi R, Pantev C (2012) Auditory evoked fields elicited by spectral, temporal, and spectral-temporal changes in human cerebral cortex. Front Psychol 3:149View Article PubMed Central PubMed
  Oldfield RC (1971) The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia 9:97鈥?13View Article PubMed
  Poeppel D (2003) The analysis of speech in different temporal integration windows: cerebral lateralization as 鈥榓symmetric sampling in time鈥? Speech Commun 41:245鈥?55View Article
  Sakai M, Chimoto S, Qin L, Sato Y (2009) Differential representation of spectral and temporal information by primary auditory cortex neurons in awake cats: relevance to auditory scene analysis. Brain Res Cogn Brain Res 1265:80鈥?2
  Shannon RV, Zeng FG, Kamath V, Wygonski J, Ekelid M (1995) Speech recognition with primarily temporal cues. Science 270:303鈥?04View Article PubMed
  Shtyrov Y, Kujala T, Palva S, Ilmoniemi RJ, Naatanen R (2000) Discrimination of speech and of complex nonspeech sounds of different temporal structure in the left and right cerebral hemispheres. Neuroimage 12:657鈥?63View Article PubMed
  Szymanski MD, Perry DW, Gage NM, Rowley HA, Walker J, Berger MS, Roberts TP (2001) Magnetic source imaging of late evoked field responses to vowels: toward an assessment of hemispheric dominance for language. J Neurosurg 94:445鈥?53View Article PubMed
  Tallal P, Miller S, Fitch RH (1993) Neurobiological basis of speech: a case for the preeminence of temporal processing. Ann N Y Acad Sci 682:27鈥?7View Article PubMed
  Tervaniemi M, Kujala A, Alho K, Virtanen J, Ilmoniemi RJ, N盲盲t盲nen R (1999) Functional specialization of the human auditory cortex in processing phonetic and musical sounds: a magnetoencephalographic (MEG) study. Neuroimage 9:330鈥?36View Article PubMed
  Tesche CD, Uusitalo MA, Ilmoniemi RJ, Huotilainen M, Kajola M, Salonen O (1995) Signal-space projections of meg data characterize both distributed and well-localized neuronal sources. Electroencephalogr Clin Neurophysiol Suppl 95:189鈥?00View Article
  Vos PG, Troost JM (1989) Ascending and descending melodic intervals鈥攕tatistical findings and their perceptual relevance. Music Percept 6:383鈥?96View Article
  Warrier CM, Zatorre RJ (2002) Influence of tonal context and timbral variation on perception of pitch. Percept Psychophys 64:198鈥?07View Article PubMed
  Wernicke C (1874) Symptomenkomplex. Eine psychologische Studie auf anatomischer Basis. Cohn und Weigert, Breslau
  Zatorre RJ, Belin P (2001) Spectral and temporal processing in human auditory cortex. Cereb Cortex 11:946鈥?53View Article PubMed
  Zatorre RJ, Evans AC, Meyer E (1994) Neural mechanisms underlying melodic perception and memory for pitch. J Neurosci 14:1908鈥?919PubMed
  Zatorre RJ, Belin P, Penhune VB (2002) Structure and function of auditory cortex: music and speech. Trends Cogn Sci 6:37鈥?6View Article PubMed
  
• 作者单位：Hidehiko Okamoto (1)
  Ryusuke Kakigi (1)
  
  1. Department of Integrative Physiology, National Institute for Physiological Sciences, 38 Nishigo-Naka, Myodaiji, Okazaki, 444-8585, Japan
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Biomedicine
  Neurosciences
  Psychiatry
  Neurology
  
• 出版者：Springer New York
• ISSN：1573-6792

文摘

One of the major challenges in human brain science is the functional hemispheric asymmetry of auditory processing. Behavioral and neurophysiological studies have demonstrated that speech processing is dominantly handled in the left hemisphere, whereas music processing dominantly occurs in the right. Using magnetoencephalography, we measured the auditory mismatch negativity elicited by band-pass filtered click-trains, which deviated from frequently presented standard sound signals in a spectral or temporal domain. The results showed that spectral and temporal deviants were dominantly processed in the right and left hemispheres, respectively. Hemispheric asymmetry was not limited to high-level cognitive processes, but also originated from the pre-attentive neural processing stage represented by mismatch negativity.