review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Stefan Koelsch | Q28833476 |
P2860 | cites work | Untangling syntactic and sensory processing: An ERP study of music perception | Q22065658 |
The cortical topography of tonal structures underlying Western music | Q28217402 | ||
Musical scale properties are automatically processed in the human auditory cortex | Q28262844 | ||
Heschl's gyrus, posterior superior temporal gyrus, and mid-ventrolateral prefrontal cortex have different roles in the detection of acoustic changes | Q28279973 | ||
A distributed cortical network for auditory sensory memory in humans | Q28288707 | ||
Towards a neural basis of auditory sentence processing | Q30040379 | ||
Brain indices of music processing: "nonmusicians" are musical. | Q30327068 | ||
Implicit learning of tonality: a self-organizing approach. | Q30327510 | ||
Musical syntax is processed in Broca's area: an MEG study. | Q30328138 | ||
Differentiating ERAN and MMN: an ERP study. | Q30328272 | ||
Superior formation of cortical memory traces for melodic patterns in musicians | Q30328703 | ||
Electric brain responses to inappropriate harmonies during listening to expressive music. | Q30330414 | ||
Music matters: preattentive musicality of the human brain. | Q30331633 | ||
Effects of musical expertise on the early right anterior negativity: an event-related brain potential study. | Q30331721 | ||
Bach speaks: a cortical "language-network" serves the processing of music. | Q30332059 | ||
Electric brain responses reveal gender differences in music processing. | Q30332731 | ||
Language, music, syntax and the brain. | Q30333104 | ||
Processing tonal modulations: an ERP study. | Q30336695 | ||
The music of speech: music training facilitates pitch processing in both music and language. | Q30341319 | ||
Musical training enhances automatic encoding of melodic contour and interval structure. | Q30342539 | ||
Visually induced auditory expectancy in music reading: a behavioral and electrophysiological study. | Q30350554 | ||
Neural substrates of processing syntax and semantics in music. | Q30350560 | ||
Adults and children processing music: an fMRI study. | Q30350615 | ||
Effects of attention on the neural processing of harmonic syntax in Western music. | Q30351727 | ||
Interaction between syntax processing in language and in music: an ERP Study. | Q30351761 | ||
Towards a neural basis of music perception. | Q30351775 | ||
Musician children detect pitch violations in both music and language better than nonmusician children: behavioral and electrophysiological approaches. | Q30353062 | ||
Investigating the relationship of music and language in children: influences of musical training and language impairment. | Q30353736 | ||
Cognitive priming in sung and instrumental music: activation of inferior frontal cortex. | Q30353978 | ||
Musical training and language-related brain electrical activity in children. | Q30355205 | ||
Auditory processing during deep propofol sedation and recovery from unconsciousness. | Q30355233 | ||
The role of harmonic expectancy violations in musical emotions: evidence from subjective, physiological, and neural responses. | Q30355789 | ||
Significance of Broca's area and ventral premotor cortex for music-syntactic processing. | Q30356023 | ||
Representation of harmony rules in the human brain: further evidence from event-related potentials. | Q30359880 | ||
Shared neural resources between music and language indicate semantic processing of musical tension-resolution patterns. | Q30363615 | ||
Double dissociation between rules and memory in music: an event-related potential study. | Q30364616 | ||
Short-term effects of processing musical syntax: an ERP study. | Q30369073 | ||
Tonal centers and expectancy: facilitation or inhibition of chords at the top of the harmonic hierarchy? | Q30371050 | ||
The representation of harmonic structure in music: hierarchies of stability as a function of context | Q30413781 | ||
Processing syntactic relations in language and music: an event-related potential study | Q30432074 | ||
Tracing the dynamic changes in perceived tonal organization in a spatial representation of musical keys | Q30463791 | ||
Short-term memory functions of the human fetus recorded with magnetoencephalography | Q30464679 | ||
Processing of abstract rule violations in audition | Q30480299 | ||
Newborn infants can organize the auditory world | Q30501574 | ||
Superior pre-attentive auditory processing in musicians | Q30538904 | ||
Different brain mechanisms mediate sensitivity to sensory consonance and harmonic context: evidence from auditory event-related brain potentials | Q30539507 | ||
Event-related brain potentials to sound omissions differ in musicians and non-musicians | Q30539622 | ||
Activation of the inferior frontal cortex in musical priming | Q30540305 | ||
Sequential effects of increasing propofol sedation on frontal and temporal cortices as indexed by auditory event-related potentials | Q30540953 | ||
Processing of musical syntax tonic versus subdominant: an event-related potential study | Q30542032 | ||
Mismatch negativity (MMN) as a tool for investigating auditory discrimination and sensory memory in infants and children. | Q33828718 | ||
A metric for thought: a comparison of P300 latency and reaction time | Q34287618 | ||
Language-specific phoneme representations revealed by electric and magnetic brain responses. | Q34414460 | ||
Neurophysiological markers of early language acquisition: from syllables to sentences | Q36247799 | ||
The effects of anesthetics on brain activity and cognitive function | Q36420420 | ||
Syntactic gender and semantic expectancy: ERPs reveal early autonomy and late interaction | Q38444022 | ||
A kind of auditory 'primitive intelligence' already present at birth | Q40411039 | ||
Auditory temporal grouping in newborn infants | Q43617772 | ||
The neural circuitry of pre-attentive auditory change-detection: an fMRI study of pitch and duration mismatch negativity generators | Q43935189 | ||
Event-related brain potential of human newborns to pitch change of an acoustic stimulus | Q44153207 | ||
Brain generators implicated in the processing of auditory stimulus deviance: a topographic event-related potential study | Q44447971 | ||
Pre-attentive and attentive processing of temporal and frequency characteristics within long sounds | Q44880896 | ||
Simultaneous ERP and fMRI of the auditory cortex in a passive oddball paradigm | Q45798934 | ||
Representation of abstract attributes of auditory stimuli in the human brain. | Q45898551 | ||
Spectral and temporal stimulus characteristics in the processing of abstract auditory features | Q46246781 | ||
Preattentive detection of nonsalient contingencies between auditory features | Q46466551 | ||
Automatic and controlled processing of acoustic and phonetic contrasts | Q47871805 | ||
Processing abstract auditory features in the human auditory cortex | Q48112078 | ||
Processing acoustic change and novelty in newborn infants | Q48133882 | ||
Brain responses reveal the learning of foreign language phonemes | Q48140165 | ||
The newborn human brain binds sound features together | Q48153269 | ||
Development of the automatic mismatch response: from frontal positivity in kindergarten children to the mismatch negativity | Q48315172 | ||
Binaural information can converge in abstract memory traces. | Q48406429 | ||
Neural manifestation of cognitive and precognitive mismatch detection in early infancy. | Q48525358 | ||
Newborn human brain identifies repeated auditory feature conjunctions of low sequential probability. | Q48573254 | ||
The auditory sensory memory trace decays rapidly in newborns. | Q48666332 | ||
Mismatch negativity (MMN) elicited by changes in phoneme length: a cross-linguistic study. | Q48680611 | ||
Electrophysiological evidence for early contextual influences during spoken-word recognition: N200 versus N400 effects. | Q48754953 | ||
Preattentive extraction of abstract feature conjunctions from auditory stimulation as reflected by the mismatch negativity (MMN). | Q48882953 | ||
Superior temporal and inferior frontal cortices are activated by infrequent sound duration decrements: an fMRI study. | Q48908439 | ||
Mismatch negativity in children and adults, and effects of an attended task. | Q49154203 | ||
Processing of complex sounds in the human auditory cortex as revealed by magnetic brain responses. | Q52047462 | ||
The Frontal Generator of the Mismatch Negativity Revisited | Q56963388 | ||
Interpreting the Mismatch Negativity | Q56963393 | ||
From symbols to sounds: Visual symbolic information activates sound representations | Q57648602 | ||
Sound frequency change detection in fetuses and newborns, a magnetoencephalographic study | Q57882130 | ||
Mismatch Negativity | Q58808089 | ||
Differential Contribution of Frontal and Temporal Cortices to Auditory Change Detection: fMRI and ERP Results | Q58808126 | ||
Children Processing Music: Electric Brain Responses Reveal Musical Competence and Gender Differences | Q60043633 | ||
P433 | issue | 1 | |
P304 | page(s) | 179-190 | |
P577 | publication date | 2008-11-21 | |
P1433 | published in | Psychophysiology | Q15716416 |
P1476 | title | Music-syntactic processing and auditory memory: similarities and differences between ERAN and MMN. | |
P478 | volume | 46 |
Q30374358 | A generalized mechanism for perception of pitch patterns. |
Q30379768 | A neuroscientific perspective on music therapy. |
Q92184530 | Abnormal neural responses to harmonic syntactic structures in congenital amusia |
Q30381862 | Activation in the Right Inferior Parietal Lobule Reflects the Representation of Musical Structure beyond Simple Pitch Discrimination. |
Q33646696 | Applauding with closed hands: neural signature of action-sentence compatibility effects |
Q30390626 | Are left fronto-temporal brain areas a prerequisite for normal music-syntactic processing? |
Q98464750 | Autodidacticism and Music: Do Self-Taught Musicians Exhibit the Same Auditory Processing Advantages as Formally Trained Musicians? |
Q30370116 | Automatic processing of abstract musical tonality. |
Q92132712 | Brain networks underlying aesthetic appreciation as modulated by interaction of the spectral and temporal organisations of music |
Q30403897 | Can you hear a difference? Neuronal correlates of melodic deviance processing in children |
Q30421527 | Co-localizing linguistic and musical syntax with intracranial EEG. |
Q30370511 | Cognitive components of regularity processing in the auditory domain. |
Q30361088 | Cortical Sensitivity to Guitar Note Patterns: EEG Entrainment to Repetition and Key. |
Q89981013 | Cortical encoding of melodic expectations in human temporal cortex |
Q30382077 | Cultural constraints on music perception and cognition. |
Q30358960 | Data-driven analysis of functional brain interactions during free listening to music and speech. |
Q47861103 | Decoding the dynamic representation of musical pitch from human brain activity |
Q38406368 | Degree of automaticity and the prefrontal cortex |
Q30409439 | Detecting scale violations in absence of mismatch requires music-syntactic analysis: a further look at the early right anterior negativity (ERAN). |
Q48390560 | Detection of speech errors in the speech of others: an ERP study. |
Q30380056 | Differences in electric brain responses to melodies and chords. |
Q90073183 | Dissonant endings of chord progressions elicit a larger ERAN than ambiguous endings in musicians |
Q30400488 | Distinct neural responses to chord violations: a multiple source analysis study |
Q30382264 | EEG oscillations reflect task effects for the change detection in vocal emotion. |
Q60956804 | Effects of Visual Predictive Information and Sequential Context on Neural Processing of Musical Syntax |
Q47300988 | Effects of global and local contexts on chord processing: An ERP study |
Q30421062 | Effects of musical training on the early auditory cortical representation of pitch transitions as indexed by change-N1. |
Q30391232 | Effects of selective attention on syntax processing in music and language |
Q30370516 | Effects of unexpected chords and of performer's expression on brain responses and electrodermal activity. |
Q30355383 | Enculturation to musical pitch structure in young children: evidence from behavioral and electrophysiological methods. |
Q92604990 | Event-related brain potentials suggest a late interaction of pitch and time in music perception |
Q91106497 | Evidence for Linear but Not Helical Automatic Representation of Pitch in the Human Auditory System |
Q30415808 | Expertise in folk music alters the brain processing of Western harmony. |
Q30393343 | Exploring Cognitive Relations Between Prediction in Language and Music |
Q30357180 | Functional modulations in brain activity for the first and second music: a comparison of high- and low-proficiency bimusicals. |
Q30385913 | Functional specializations for music processing in the human newborn brain. |
Q90400427 | Implicit Processing of Pitch in Postlingually Deafened Cochlear Implant Users |
Q30404347 | Importance of the left auditory areas in chord discrimination in music experts as demonstrated by MEG. |
Q30364062 | Investigating repetition and change in musical rhythm by functional MRI. |
Q30424068 | Jazz drummers recruit language-specific areas for the processing of rhythmic structure |
Q48020650 | Jazz musicians reveal role of expectancy in human creativity. |
Q30558218 | Magnetoencephalography evidence for different brain subregions serving two musical cultures |
Q30365225 | Melodic multi-feature paradigm reveals auditory profiles in music-sound encoding. |
Q30407708 | Mismatch negativity (MMN) as an index of cognitive dysfunction |
Q30430264 | Modulated neural processing of Western harmony in folk musicians |
Q42643137 | Motor-language coupling: direct evidence from early Parkinson's disease and intracranial cortical recordings |
Q108781756 | Musical Expertise Is Associated with Improved Neural Statistical Learning in the Auditory Domain |
Q97568303 | Musical expertise facilitates statistical learning of rhythm and the perceptive uncertainty: A cross-cultural study |
Q30426140 | Musical expertise modulates early processing of syntactic violations in language |
Q30353804 | Musical experts recruit action-related neural structures in harmonic anomaly detection: evidence for embodied cognition in expertise |
Q30417761 | Musical training facilitates the neural discrimination of major versus minor chords in 13-year-old children |
Q30376904 | Musical training modulates the development of syntax processing in children. |
Q30372227 | Neural basis of music perception. |
Q30361128 | Neural correlates of expectation of musical termination structure or cadence. |
Q30368976 | Neural correlates of intentional switching from ternary to binary meter in a musical hemiola pattern. |
Q30363376 | Neural correlates of music-syntactic processing in two-year old children. |
Q30396939 | Neural differences between the processing of musical meaning conveyed by direction of pitch change and natural music in congenital amusia. |
Q30395195 | Neural prediction of higher-order auditory sequence statistics. |
Q62495736 | Neurophysiological Markers of Statistical Learning in Music and Language: Hierarchy, Entropy, and Uncertainty |
Q50332057 | Neurophysiological and Behavioral Differences between Older and Younger Adults When Processing Violations of Tonal Structure in Music. |
Q30373013 | Neuroplasticity beyond Sounds: Neural Adaptations Following Long-Term Musical Aesthetic Experiences |
Q30571439 | Pitch-class distribution modulates the statistical learning of atonal chord sequences |
Q30411743 | Predictive information processing in music cognition. A critical review |
Q30380060 | Processing expectancy violations during music performance and perception: an ERP study. |
Q30360122 | Sensorimotor Learning Enhances Expectations During Auditory Perception |
Q30386225 | Sensory, Cognitive, and Sensorimotor Learning Effects in Recognition Memory for Music |
Q30403983 | Shadows of music-language interaction on low frequency brain oscillatory patterns |
Q30362793 | Shining light on infants' discovery of structure. |
Q41580142 | Single, but not dual, attention facilitates statistical learning of two concurrent auditory sequences |
Q30569662 | Syntax in Action Has Priority over Movement Selection in Piano Playing: An ERP Study |
Q30419655 | Syntax in a pianist's hand: ERP signatures of "embodied" syntax processing in music |
Q33849345 | Task Context Influences Brain Activation during Music Listening |
Q26778714 | The Mismatch Negativity: An Indicator of Perception of Regularities in Music |
Q89453802 | The Rapid Emergence of Musical Pitch Structure in Human Cortex |
Q30375896 | The amusic brain: in tune, out of key, and unaware. |
Q30400308 | The effect of conditional probability of chord progression on brain response: an MEG study |
Q30371515 | The effects of supervised learning on event-related potential correlates of music-syntactic processing. |
Q30415818 | The multisensory brain and its ability to learn music |
Q30395935 | The preattentive processing of major vs. minor chords in the human brain: An event-related potential study |
Q30553150 | Tonal expectations influence early pitch processing |
Q21129184 | Toward a neural basis of music perception - a review and updated model |
Q30430102 | Toward a neural chronometry for the aesthetic experience of music |
Q30402998 | Towards a neural basis of processing musical semantics |
Q93091372 | Towards a standard model of musical improvisation |
Q36527977 | Under the hood of statistical learning: A statistical MMN reflects the magnitude of transitional probabilities in auditory sequences |
Q64082636 | When the statistical MMN meets the physical MMN |
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