Cortical Plasticity in 4-Month-Old Infants: Specific Effects of Experience with Musical Timbres

[1]  R. Fay,et al.  Human Auditory Development , 2019, Springer Handbook of Auditory Research.

[2]  L. Trainor,et al.  Auditory and Musical Development , 2013 .

[3]  M. Thaut,et al.  The Oxford handbook of music psychology , 2011 .

[4]  Naseem Choudhury,et al.  Maturation of auditory evoked potentials from 6 to 48 months: Prediction to 3 and 4 year language and cognitive abilities , 2011, Clinical Neurophysiology.

[5]  Laurel J. Trainor,et al.  Comparison of artifact correction methods for infant EEG applied to extraction of event-related potential signals , 2011, Clinical Neurophysiology.

[6]  P. Gander,et al.  Acoustic experience but not attention modifies neural population phase expressed in human primary auditory cortex , 2010, Hearing Research.

[7]  G. Schlaug,et al.  Tone Deafness: A New Disconnection Syndrome? , 2009, The Journal of Neuroscience.

[8]  Alan C. Evans,et al.  Neuroanatomical correlates of musicianship as revealed by cortical thickness and voxel-based morphometry. , 2009, Cerebral cortex.

[9]  Takako Fujioka,et al.  Neural Representation of Transposed Melody in Infants at 6 Months of Age , 2009, Annals of the New York Academy of Sciences.

[10]  Antoine J. Shahin,et al.  Understanding the Benefits of Musical Training , 2009, Annals of the New York Academy of Sciences.

[11]  L. Trainor,et al.  Finding the Pitch of the Missing Fundamental in Infants , 2009, The Journal of Neuroscience.

[12]  Lisa Hotson,et al.  Development of infant mismatch responses to auditory pattern changes between 2 and 4 months old , 2009, The European journal of neuroscience.

[13]  Laurel J. Trainor,et al.  Maturation of cortical mismatch responses to occasional pitch change in early infancy: Effects of presentation rate and magnitude of change , 2009, Neuropsychologia.

[14]  R. Zatorre,et al.  The neurobiological basis of musical expectations , 2008 .

[15]  G. Schlaug Music, musicians, and brain plasticity , 2008 .

[16]  J. Eggermont The Role of Sound in Adult and Developmental Auditory Cortical Plasticity , 2008, Ear and hearing.

[17]  John Colombo,et al.  Infant Pathways to Language : Methods, Models, and Research Directions , 2008 .

[18]  Sibylle C. Herholz,et al.  Cortical Plasticity Induced by Short-Term Unimodal and Multimodal Musical Training , 2008, The Journal of Neuroscience.

[19]  Antoine J. Shahin,et al.  Music training leads to the development of timbre-specific gamma band activity , 2008, NeuroImage.

[20]  R. Näätänen,et al.  The mismatch negativity (MMN) in basic research of central auditory processing: A review , 2007, Clinical Neurophysiology.

[21]  L. Trainor,et al.  Music acquisition: effects of enculturation and formal training on development , 2007, Trends in Cognitive Sciences.

[22]  Janet F. Werker,et al.  The perceptual foundations of phonological development , 2007 .

[23]  G. Altmann,et al.  The Oxford Handbook of Psycholinguistics , 2007 .

[24]  S. David,et al.  Does attention play a role in dynamic receptive field adaptation to changing acoustic salience in A1? , 2007, Hearing Research.

[25]  Chao He,et al.  Mismatch Responses to Pitch Changes in Early Infancy , 2007, Journal of Cognitive Neuroscience.

[26]  Srikantan S Nagarajan,et al.  Auditory Cortical Plasticity in Learning to Discriminate Modulation Rate , 2007, The Journal of Neuroscience.

[27]  M. Tervaniemi,et al.  Neonatal frequency discrimination in 250–4000-Hz range: Electrophysiological evidence , 2007, Clinical Neurophysiology.

[28]  M. Merzenich,et al.  Experience-Dependent Adult Cortical Plasticity Requires Cognitive Association between Sensation and Reward , 2006, Neuron.

[29]  R. Kakigi,et al.  One year of musical training affects development of auditory cortical-evoked fields in young children. , 2006, Brain : a journal of neurology.

[30]  Isabelle Peretz,et al.  Morphometry of the amusic brain: a two-site study. , 2006, Brain : a journal of neurology.

[31]  M. Bangert,et al.  Specialization of the specialized in features of external human brain morphology , 2006, The European journal of neuroscience.

[32]  M. Liberman,et al.  Acceleration of Age-Related Hearing Loss by Early Noise Exposure: Evidence of a Misspent Youth , 2006, The Journal of Neuroscience.

[33]  Antoine J. Shahin,et al.  Modulation of P2 auditory-evoked responses by the spectral complexity of musical sounds , 2005, Neuroreport.

[34]  Laurel J. Trainor,et al.  Automatic Encoding of Polyphonic Melodies in Musicians and Nonmusicians , 2005, Journal of Cognitive Neuroscience.

[35]  G. McArthur,et al.  Is discrimination training necessary to cause changes in the P2 auditory event-related brain potential to speech sounds? , 2005, Brain research. Cognitive brain research.

[36]  Norman M Weinberger,et al.  Encoding of learned importance of sound by magnitude of representational area in primary auditory cortex. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[37]  Henning Scheich,et al.  Learning-induced plasticity in animal and human auditory cortex , 2005, Current Opinion in Neurobiology.

[38]  M. Dorman,et al.  The influence of a sensitive period on central auditory development in children with unilateral and bilateral cochlear implants , 2005, Hearing Research.

[39]  S. Trehub,et al.  Metrical Categories in Infancy and Adulthood , 2005, Psychological science.

[40]  K. Eklund,et al.  Maturational effects on newborn ERPs measured in the mismatch negativity paradigm , 2004, Experimental Neurology.

[41]  R. Näätänen,et al.  Newborn human brain identifies repeated auditory feature conjunctions of low sequential probability , 2004, The European journal of neuroscience.

[42]  D. Bosnyak,et al.  Distributed auditory cortical representations are modified when non-musicians are trained at pitch discrimination with 40 Hz amplitude modulated tones. , 2004, Cerebral cortex.

[43]  A. Friederici,et al.  Electrophysiological evidence for delayed mismatch response in infants at-risk for specific language impairment. , 2004, Psychophysiology.

[44]  Antoine J. Shahin,et al.  Enhancement of auditory cortical development by musical experience in children , 2004, Neuroreport.

[45]  R. Kakigi,et al.  Musical Training Enhances Automatic Encoding of Melodic Contour and Interval Structure , 2004, Journal of Cognitive Neuroscience.

[46]  L. Trainor,et al.  Changes in auditory cortex and the development of mismatch negativity between 2 and 6 months of age. , 2003, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[47]  G. Schlaug,et al.  Brain Structures Differ between Musicians and Non-Musicians , 2003, The Journal of Neuroscience.

[48]  Erich Schröger,et al.  Prefrontal cortex involvement in preattentive auditory deviance detection: neuroimaging and electrophysiological evidence , 2003, NeuroImage.

[49]  Jos J Eggermont,et al.  Neural changes in cat auditory cortex after a transient pure-tone trauma. , 2003, Journal of neurophysiology.

[50]  I. Winkler,et al.  Newborn infants can organize the auditory world , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[51]  G. Schlaug,et al.  Cerebellar volume of musicians. , 2003, Cerebral cortex.

[52]  P. Kuhl,et al.  Foreign-language experience in infancy: Effects of short-term exposure and social interaction on phonetic learning , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[53]  Antoine J. Shahin,et al.  Enhancement of Neuroplastic P2 and N1c Auditory Evoked Potentials in Musicians , 2003, The Journal of Neuroscience.

[54]  Thomas R. Barrick,et al.  Voxel-Based Morphometry Reveals Increased Gray Matter Density in Broca's Area in Male Symphony Orchestra Musicians , 2002, NeuroImage.

[55]  S. Koelsch,et al.  Effects of musical expertise on the early right anterior negativity: an event-related brain potential study. , 2002, Psychophysiology.

[56]  A. Friederici,et al.  Neural manifestation of cognitive and precognitive mismatch detection in early infancy , 2002, Neuroreport.

[57]  M. Scherg,et al.  Morphology of Heschl's gyrus reflects enhanced activation in the auditory cortex of musicians , 2002, Nature Neuroscience.

[58]  Valerie L. Shafer,et al.  Maturation of Mismatch Negativity in Typically Developing Infants and Preschool Children , 2002, Ear and hearing.

[59]  R. Näätänen,et al.  Event-related potential features indexing central auditory discrimination by newborns. , 2002, Brain research. Cognitive brain research.

[60]  J. Eggermont,et al.  Of Kittens and Kids: Altered Cortical Maturation following Profound Deafness and Cochlear Implant Use , 2001, Audiology and Neurotology.

[61]  Li I. Zhang,et al.  Persistent and specific influences of early acoustic environments on primary auditory cortex , 2001, Nature Neuroscience.

[62]  R. Ilmoniemi,et al.  Superior formation of cortical memory traces for melodic patterns in musicians. , 2001, Learning & memory.

[63]  L. Trainor,et al.  Measuring temporal resolution in infants using mismatch negativity , 2001, Neuroreport.

[64]  C. Ponton,et al.  Central Auditory Plasticity: Changes in the N1-P2 Complex after Speech-Sound Training , 2001, Ear and hearing.

[65]  B. Ross,et al.  COGNITIVE NEUROSCIENCE AND NEUROPSYCHOLOGY: Timbre-specific enhancement of auditory cortical representations in musicians , 2022 .

[66]  T. Picton,et al.  Mismatch Negativity: Different Water in the Same River , 2000, Audiology and Neurotology.

[67]  Larry E. Roberts,et al.  Plastic changes in the auditory cortex induced by intensive frequency discrimination training , 2000, Neuroreport.

[68]  J. Eggermont,et al.  Maturation of human central auditory system activity: evidence from multi-channel evoked potentials , 2000, Clinical Neurophysiology.

[69]  Laurel J. Trainor,et al.  A Comparison of Contour and Interval Processing in Musicians and Nonmusicians Using Event‐Related Potentials , 1999 .

[70]  K Nakagome,et al.  Multiple generators in the auditory automatic discrimination process in humans. , 1999, Neuroreport.

[71]  M. Scherg,et al.  Intracerebral Sources of Human Auditory-Evoked Potentials , 1999, Audiology and Neurotology.

[72]  R. Oostenveld,et al.  Increased auditory cortical representation in musicians , 1998, Nature.

[73]  M. Besson,et al.  AN EVENT-RELATED POTENTIAL (ERP) STUDY OF MUSICAL EXPECTANCY : COMPARISON OF MUSICIANS WITH NONMUSICIANS , 1995 .

[74]  B. Rockstroh,et al.  Increased Cortical Representation of the Fingers of the Left Hand in String Players , 1995, Science.

[75]  K. Alho Cerebral Generators of Mismatch Negativity (MMN) and Its Magnetic Counterpart (MMNm) Elicited by Sound Changes , 1995, Ear and hearing.

[76]  M. Merzenich,et al.  Plasticity in the frequency representation of primary auditory cortex following discrimination training in adult owl monkeys , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[77]  S. Trehub,et al.  A comparison of infants' and adults' sensitivity to western musical structure. , 1992, Journal of experimental psychology. Human perception and performance.

[78]  K. Reinikainen,et al.  Event-related brain potential of human newborns to pitch change of an acoustic stimulus. , 1990, Electroencephalography and clinical neurophysiology.

[79]  G. Stricker,et al.  Handbook of Developmental Psychology , 1982 .

[80]  H. Tiitinen,et al.  Mismatch negativity (MMN), the deviance-elicited auditory deflection, explained. , 2010, Psychophysiology.

[81]  S. Segalowitz,et al.  Developmental psychophysiology : theory, systems, and methods , 2007 .

[82]  Antoine J. Shahin,et al.  Neuroplastic Adaptations of the Auditory System in Musicians and Nonmusicians , 2005 .

[83]  Josef Syka and Michael M. Merzenich Plasticity and signal representation in the auditory system , 2005 .

[84]  H. Gould,et al.  Source Generators of Mismatch Negativity to Multiple Deviant Stimulus Types , 2004, Brain Topography.

[85]  Jun Soo Kwon,et al.  Optimized Individual Mismatch Negativity Source Localization Using a Realistic Head Model and the Talairach Coordinate System , 2004, Brain Topography.

[86]  Norbert Kathmann,et al.  Dipole Localization and Test-Retest Reliability of Frequency and Duration Mismatch Negativity Generator Processes , 2004, Brain Topography.

[87]  D. Buonomano,et al.  Cortical plasticity: from synapses to maps. , 1998, Annual review of neuroscience.