| scholarly article | Q13442814 |
| review article | Q7318358 |
| P50 | author | Nina Kraus | Q7038003 |
| P2093 | author name string | Erika Skoe | |
| P2860 | cites work | Speaking clearly for children with learning disabilities: sentence perception in noise. | Q52107762 |
| Deficits in auditory brainstem pathway encoding of speech sounds in children with learning problems. | Q52124330 | ||
| Speech acoustic-cue discrimination abilities of normally developing and language-impaired children. | Q52294582 | ||
| Representation of steady‐state vowels in the temporal aspects of the discharge patterns of populations of auditory‐nerve fibers | Q55061713 | ||
| Wavelet Transform in the analysis of the frequency composition of evoked potentials | Q74424423 | ||
| Time structure of discharges in single auditory nerve fibers of the squirrel monkey in response to complex periodic sounds | Q93787627 | ||
| Multidimensional perceptual scaling of musical timbres | Q22299363 | ||
| Brainstem responses to speech syllables | Q24654709 | ||
| Reading and subcortical auditory function | Q24655907 | ||
| Auditory training improves neural timing in the human brainstem | Q28287074 | ||
| Structure and function of auditory cortex: music and speech. | Q30329717 | ||
| Speech and music have different requirements for spectral resolution. | Q30352925 | ||
| Musical experience shapes human brainstem encoding of linguistic pitch patterns. | Q30360332 | ||
| Musicians have enhanced subcortical auditory and audiovisual processing of speech and music. | Q30364822 | ||
| Experience-dependent enhancement of linguistic pitch representation in the brainstem is not specific to a speech context. | Q30371376 | ||
| Selective subcortical enhancement of musical intervals in musicians. | Q30376804 | ||
| Experience-induced malleability in neural encoding of pitch, timbre, and timing. | Q30379819 | ||
| Neural correlates of consonance, dissonance, and the hierarchy of musical pitch in the human brainstem. | Q30381836 | ||
| Neuroplasticity in the processing of pitch dimensions: a multidimensional scaling analysis of the mismatch negativity. | Q30415725 | ||
| Task difficulty and performance induce diverse adaptive patterns in gain and shape of primary auditory cortical receptive fields | Q30444731 | ||
| Associative representational plasticity in the auditory cortex: a synthesis of two disciplines | Q30456202 | ||
| Stimulus rate and subcortical auditory processing of speech | Q30474905 | ||
| The scalp-recorded brainstem response to speech: neural origins and plasticity. | Q30475569 | ||
| Context-dependent encoding in the human auditory brainstem relates to hearing speech in noise: implications for developmental dyslexia | Q30478702 | ||
| The role of the auditory brainstem in processing linguistically-relevant pitch patterns | Q30479693 | ||
| Brainstem transcription of speech is disrupted in children with autism spectrum disorders | Q30480726 | ||
| Exploring the relationship between physiological measures of cochlear and brainstem function | Q30481636 | ||
| Experience-dependent neural representation of dynamic pitch in the brainstem | Q30482823 | ||
| Plasticity in the adult human auditory brainstem following short-term linguistic training | Q30482973 | ||
| Subcortical differentiation of stop consonants relates to reading and speech-in-noise perception | Q30483522 | ||
| Subcortical laterality of speech encoding | Q30483968 | ||
| Developmental plasticity in the human auditory brainstem | Q30483991 | ||
| Learning to encode timing: mechanisms of plasticity in the auditory brainstem | Q30484663 | ||
| Audio-vocal system regulation in children with autism spectrum disorders | Q30485396 | ||
| Deficient brainstem encoding of pitch in children with Autism Spectrum Disorders | Q30487709 | ||
| Relationships between behavior, brainstem and cortical encoding of seen and heard speech in musicians and non-musicians | Q30488520 | ||
| Seeing speech affects acoustic information processing in the human brainstem | Q30493498 | ||
| An auditory neural correlate suggests a mechanism underlying holistic pitch perception | Q30499121 | ||
| Musical experience and neural efficiency: effects of training on subcortical processing of vocal expressions of emotion. | Q30544591 | ||
| Musician enhancement for speech-in-noise | Q30545730 | ||
| Musical experience limits the degradative effects of background noise on the neural processing of sound. | Q33515791 | ||
| Auditory neuropathy | Q34386008 | ||
| Auditory attention--focusing the searchlight on sound | Q34666596 | ||
| Otoacoustic emissions, their origin in cochlear function, and use. | Q34905421 | ||
| Speech-perception-in-noise deficits in dyslexia | Q34999105 | ||
| Temporal information in speech: acoustic, auditory and linguistic aspects | Q35262491 | ||
| Brainstem origins for cortical 'what' and 'where' pathways in the auditory system | Q36088571 | ||
| Sensory-based learning disability: Insights from brainstem processing of speech sounds | Q36935458 | ||
| Anatomy and physiology of binaural hearing. | Q37522412 | ||
| Recording human evoked potentials that follow the pitch contour of a natural vowel | Q38412202 | ||
| Brainstem frequency-following responses and cortical event-related potentials during attention | Q38566989 | ||
| Selective attention and brainstem frequency-following responses | Q38569321 | ||
| Auditory brainstem frequency following responses to waveform envelope periodicity | Q38588439 | ||
| Neural temporal coding of low pitch. I. Human frequency-following responses to complex tones | Q38593578 | ||
| Auditory brain stem response for objective measures of hearing. | Q40881714 | ||
| Binaural Interaction in Brainstem-Evoked Responses | Q41667441 | ||
| Brainstem encoding of voiced consonant--vowel stop syllables | Q43927778 | ||
| Envelope and spectral frequency-following responses to vowel sounds | Q44129873 | ||
| Two-channel brain-stem frequency-following responses to pure tone and missing fundamental stimuli | Q45007644 | ||
| Sensitive response to low-frequency cochlear distortion products in the auditory midbrain | Q45079928 | ||
| Corticofugal modulation of initial sound processing in the brain. | Q45743875 | ||
| Specificity of experience-dependent pitch representation in the brainstem | Q45812789 | ||
| Brain stem frequency-following response to dichotic vowels during attention. | Q46028258 | ||
| Selective attention affects human brain stem frequency-following response | Q46192361 | ||
| Brain stem evoked response to forward and reversed speech in humans | Q46297302 | ||
| Brainstem frequency-following and behavioral responses during selective attention to pure tone and missing fundamental stimuli | Q46365474 | ||
| Encoding of pitch in the human brainstem is sensitive to language experience | Q46448882 | ||
| Intelligible speech encoded in the human brain stem frequency-following response | Q46476619 | ||
| Variable effects of click polarity on auditory brain-stem response latencies: analyses of narrow-band ABRs suggest possible explanations | Q46535599 | ||
| Periodicity coding in the inferior colliculus of the cat. I. Neuronal mechanisms | Q46920653 | ||
| The transducer characteristic of hair cells in the human ear: a possible objective measure | Q48123285 | ||
| Asymmetric frequency-following responses. | Q48160709 | ||
| Auditory brainstem correlates of perceptual timing deficits | Q48254757 | ||
| Neural plasticity following auditory training in children with learning problems | Q48341321 | ||
| Binaural interaction in the human frequency-following response: effects of interaural intensity difference | Q48410720 | ||
| On the relationship between speech- and nonspeech-evoked auditory brainstem responses. | Q48554482 | ||
| Human frequency-following responses: representation of steady-state synthetic vowels | Q48581187 | ||
| Human auditory evoked potentials. II. Effects of attention | Q48585612 | ||
| Envelope following responses to natural vowels. | Q48585866 | ||
| Laboratory note. Scalp-recorded early responses in man to frequencies in the speech range | Q48617957 | ||
| Brainstem timing: implications for cortical processing and literacy. | Q48716355 | ||
| Auditory steady-state responses to multiple simultaneous stimuli | Q48807192 | ||
| Auditory-evoked far fields averaged from the scalp of humans | Q48863972 | ||
| Auditory selective attention modulates activation of human inferior colliculus | Q48880019 | ||
| Neurobiologic responses to speech in noise in children with learning problems: deficits and strategies for improvement | Q48890651 | ||
| Speech auditory brainstem response (speech ABR) characteristics depending on recording conditions, and hearing status: an experimental parametric study | Q48926238 | ||
| Auditory neurophysiologic responses and discrimination deficits in children with learning problems | Q48942036 | ||
| Comparison of the acoustic and neural distortion product at 2f1-f2 in normal-hearing adults | Q49161005 | ||
| The temporal relationship between speech auditory brainstem responses and the acoustic pattern of the phoneme /ba/ in normal-hearing adults | Q50453132 | ||
| Applications of static and dynamic iterated rippled noise to evaluate pitch encoding in the human auditory brainstem | Q50453486 | ||
| Effects of spatial attention on the brain stem frequency-following potential. | Q50479242 | ||
| Human frequency-following responses: representation of second formant transitions in normal-hearing and hearing-impaired listeners. | Q50489139 | ||
| Frequency-following response: effects of interaural time and intensity differences. | Q50497052 | ||
| How young and old adults listen to and remember speech in noise. | Q50521817 | ||
| Detection and recognition of stop consonants by normal-hearing and hearing-impaired listeners | Q50536976 | ||
| Effects of age and mild hearing loss on speech recognition in noise. | Q50587433 | ||
| Human Auditory Evoked Potentials: Possible Brain Stem Components Detected on the Scalp | Q50653108 | ||
| Human frequency-following response: representation of pitch contours in Chinese tones. | Q51708096 | ||
| Time--frequency analysis of biosignals. | Q51790953 | ||
| Correlation between brainstem and cortical auditory processes in normal and language-impaired children. | Q52060995 | ||
| Atypical brainstem representation of onset and formant structure of speech sounds in children with language-based learning problems. | Q52088271 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | brain | Q1073 |
| brain stem | Q182228 | ||
| P304 | page(s) | 302-324 | |
| P577 | publication date | 2010-06-01 | |
| P1433 | published in | Ear and Hearing | Q13575058 |
| P1476 | title | Auditory brain stem response to complex sounds: a tutorial | |
| P478 | volume | 31 |
| Q64104282 | A Review of the Role of Auditory Evoked Potentials in Mild Traumatic Brain Injury Assessment |
| Q30420598 | A little goes a long way: how the adult brain is shaped by musical training in childhood. |
| Q30461465 | A neural basis of speech-in-noise perception in older adults |
| Q30431073 | A novel method of brainstem auditory evoked potentials using complex verbal stimuli |
| Q30619151 | A theory of attentional modulations of the supratemporal generation of the auditory mismatch negativity (MMN). |
| Q92402569 | Acquisition of Subcortical Auditory Potentials With Around-the-Ear cEEGrid Technology in Normal and Hearing Impaired Listeners |
| Q30442029 | Adaptation in the auditory system: an overview. |
| Q30455524 | Aging affects neural precision of speech encoding |
| Q88682966 | An Analysis of The Parameters Used In Speech ABR Assessment Protocols |
| Q90673023 | An Experimental Swallow Evoked Potential Protocol to Investigate the Neural Substrates of Swallowing |
| Q38154821 | An integrative model of subcortical auditory plasticity. |
| Q90037300 | Analyzing the FFR: A tutorial for decoding the richness of auditory function |
| Q55426497 | Applicability of Evoked Auditory Brainstem Responses with Complex Stimuli in Adults with Hearing Loss. |
| Q39964382 | Are speech-evoked auditory brainstem response (speech-ABR) outcomes influenced by ethnicity? |
| Q30448256 | Art and science: how musical training shapes the brain. |
| Q30355515 | Association Between Sex and Speech Auditory Brainstem Responses in Adults, and Relationship to Sex Hormone Levels. |
| Q59798283 | Auditory Brainstem Representation of the Voice Pitch Contours in the Resolved and Unresolved Components of Mandarin Tones |
| Q49587454 | Auditory Brainstem Responses to Continuous Natural Speech in Human Listeners. |
| Q64122670 | Auditory Deficits in Patients With Mild and Moderate Obstructive Sleep Apnea Syndrome: A Speech Syllable Evoked Auditory Brainstem Response Study |
| Q30385605 | Auditory Evoked Potentials with Different Speech Stimuli: a Comparison and Standardization of Values. |
| Q30406649 | Auditory Processing in Noise: A Preschool Biomarker for Literacy |
| Q30367166 | Auditory biological marker of concussion in children. |
| Q30471338 | Auditory brainstem measures predict reading and speech-in-noise perception in school-aged children. |
| Q30454775 | Auditory brainstem response to complex sounds predicts self-reported speech-in-noise performance. |
| Q57030214 | Auditory brainstem response to speech in children with high functional autism spectrum disorder |
| Q58765674 | Auditory spatial attention is encoded in a retinotopic reference frame across eye-movements |
| Q92954805 | Baseline profiles of auditory, vestibular, and visual functions in youth tackle football players |
| Q30414816 | Beat synchronization predicts neural speech encoding and reading readiness in preschoolers |
| Q30421078 | Bilingualism increases neural response consistency and attentional control: evidence for sensory and cognitive coupling |
| Q89747080 | Binaural Beats through the Auditory Pathway: From Brainstem to Connectivity Patterns |
| Q30479013 | Biological changes in auditory function following training in children with autism spectrum disorders |
| Q27011271 | Biological impact of auditory expertise across the life span: musicians as a model of auditory learning |
| Q30352228 | Biological impact of preschool music classes on processing speech in noise |
| Q52321094 | Brainstem Correlates of Comodulation Masking Release for Speech in Normal Hearing Adults. |
| Q30379257 | Brainstem Encoding of Aided Speech in Hearing Aid Users with Cochlear Dead Region(s). |
| Q30472530 | Brainstem correlates of speech-in-noise perception in children |
| Q30419543 | Brainstem encoding of speech and musical stimuli in congenital amusia: evidence from Cantonese speakers. |
| Q88999784 | Brainstem-cortical functional connectivity for speech is differentially challenged by noise and reverberation |
| Q47564522 | Children with autism spectrum disorder have unstable neural responses to sound |
| Q30415786 | Cognitive factors shape brain networks for auditory skills: spotlight on auditory working memory |
| Q39197102 | Construction of Hindi Speech Stimuli for Eliciting Auditory Brainstem Responses |
| Q30463520 | Context-dependent encoding in the auditory brainstem subserves enhanced speech-in-noise perception in musicians |
| Q39198234 | Context-dependent plasticity in the subcortical encoding of linguistic pitch patterns |
| Q30381196 | Continued maturation of the click-evoked auditory brainstem response in preschoolers |
| Q30370697 | Contributions of Sensory Coding and Attentional Control to Individual Differences in Performance in Spatial Auditory Selective Attention Tasks. |
| Q30572227 | Cortical Correlates of the Auditory Frequency-Following and Onset Responses: EEG and fMRI Evidence. |
| Q30460257 | Cortical activity patterns predict robust speech discrimination ability in noise. |
| Q27323012 | Cortical contributions to the auditory frequency-following response revealed by MEG |
| Q30469203 | Cross-phaseogram: objective neural index of speech sound differentiation |
| Q46567069 | Design and implementation of frequency-following response recording system |
| Q38612438 | Development of Phase Locking and Frequency Representation in the Infant Frequency-Following Response |
| Q39598658 | Development of Subcortical Pitch Representation in Three-Month-Old Chinese Infants |
| Q30382348 | Development of subcortical speech representation in human infants. |
| Q38161840 | Deviance detection based on regularity encoding along the auditory hierarchy: electrophysiological evidence in humans |
| Q48348466 | Differences between psychoacoustic and frequency following response measures of distortion tone level and masking |
| Q47142848 | Directed Motor-Auditory EEG Connectivity Is Modulated by Music Tempo |
| Q38969390 | Dyslexia risk gene relates to representation of sound in the auditory brainstem. |
| Q46378723 | Early maturation of frequency-following responses to voice pitch in infants with normal hearing |
| Q30399084 | Effect of Stimulus Polarity on Speech Evoked Auditory Brainstem Response. |
| Q98771351 | Effect of Vowel Auditory Training on the Speech-In-Noise Perception among Older Adults with Normal Hearing |
| Q49493291 | Effects of Amplification on Neural Phase Locking, Amplitude, and Latency to a Speech Syllable |
| Q59341190 | Effects of Inter-Stimulus Interval on Speech-Evoked Frequency-Following Response in Elderly Adults |
| Q60046049 | Effects of Phase-Locking Deficits on Speech Recognition in Older Adults With Presbycusis |
| Q98177399 | Effects of cTBS on the Frequency-Following Response and Other Auditory Evoked Potentials |
| Q92295963 | Effects of formant proximity and stimulus prototypicality on the neural discrimination of vowels: Evidence from the auditory frequency-following response |
| Q50426056 | Effects of stimulus presentation mode and subcortical laterality in speech-evoked auditory brainstem responses. |
| Q30430233 | Electrically-evoked frequency-following response (EFFR) in the auditory brainstem of guinea pigs |
| Q30371298 | Electrophysiologic Assessment of Auditory Training Benefits in Older Adults |
| Q38549730 | Evidence against attentional state modulating scalp-recorded auditory brainstem steady-state responses |
| Q91151531 | Evolving perspectives on the sources of the frequency-following response |
| Q44657849 | Exponential modeling of human frequency-following responses to voice pitch |
| Q30388641 | Failing to get the gist of what's being said: background noise impairs higher-order cognitive processing. |
| Q50121093 | Forward Masking of the Speech-Evoked Auditory Brainstem Response |
| Q30432822 | Frequency difference beyond behavioral limen reflected by frequency following response of human auditory Brainstem |
| Q91647108 | Frequency following responses to tone glides: Effects of frequency extent, direction, and electrode montage |
| Q30453859 | Frequency modulation entrains slow neural oscillations and optimizes human listening behavior |
| Q64100703 | Frequency-Following Responses to Complex Tones at Different Frequencies Reflect Different Source Configurations |
| Q38972472 | Gender Disparities in Speech-evoked Auditory Brainstem Response in Healthy Adults. |
| Q30395846 | Hearing it again and again: on-line subcortical plasticity in humans |
| Q38625096 | Hidden Markov modeling of frequency-following responses to Mandarin lexical tones. |
| Q30357207 | High school music classes enhance the neural processing of speech. |
| Q41287353 | Human Brainstem Exhibits higher Sensitivity and Specificity than Auditory-Related Cortex to Short-Term Phonetic Discrimination Learning |
| Q30457766 | Human inferior colliculus activity relates to individual differences in spoken language learning |
| Q96952213 | Impact of hearing aid noise reduction algorithms on the speech-evoked auditory brainstem response |
| Q30374005 | Impairments in musical abilities reflected in the auditory brainstem: evidence from congenital amusia. |
| Q30386647 | Individual Differences in the Frequency-Following Response: Relation to Pitch Perception |
| Q47628081 | Individual differences in speech-in-noise perception parallel neural speech processing and attention in preschoolers |
| Q90426172 | Individual differences in the attentional modulation of the human auditory brainstem response to speech inform on speech-in-noise deficits |
| Q30392254 | Infant cortical electrophysiology and perception of vowel contrasts |
| Q90627207 | Interactive effects of linguistic abstraction and stimulus statistics in the online modulation of neural speech encoding |
| Q30390506 | Intertrial auditory neural stability supports beat synchronization in preschoolers |
| Q30469878 | Involuntary monitoring of sound signals in noise is reflected in the human auditory evoked N1m response |
| Q30394698 | Involvement of the Serotonin Transporter Gene in Accurate Subcortical Speech Encoding. |
| Q38373606 | Language related differences of the sustained response evoked by natural speech sounds. |
| Q30561025 | Lifetime benefits of musical training |
| Q58784402 | Linguistic effect on speech perception observed at the brainstem |
| Q61797086 | Long-range temporal correlation in Auditory Brainstem Responses to Spoken Syllable/da/ |
| Q92872397 | Machine Learning Approaches to Analyze Speech-Evoked Neurophysiological Responses |
| Q100385849 | Meter enhances the subcortical processing of speech sounds at a strong beat |
| Q30459505 | Methods to eliminate stimulus transduction artifact from insert earphones during electroencephalography |
| Q48153084 | Mild Cognitive Impairment Is Characterized by Deficient Brainstem and Cortical Representations of Speech. |
| Q30406033 | Modelling the Noise-Robustness of Infants' Word Representations: The Impact of Previous Experience |
| Q46250650 | Monkeys share the neurophysiological basis for encoding sound periodicities captured by the frequency-following response with humans |
| Q92559718 | Multifactor consciousness level assessment of participants with acquired brain injuries employing human-computer interfaces |
| Q30366392 | Music enrichment programs improve the neural encoding of speech in at-risk children. |
| Q47699504 | Music for the ageing brain: Cognitive, emotional, social, and neural benefits of musical leisure activities in stroke and dementia |
| Q42282517 | Music training enhances the automatic neural processing of foreign speech sounds |
| Q30391657 | Music training for the development of auditory skills |
| Q30401453 | Musical Sophistication and the Effect of Complexity on Auditory Discrimination in Finnish Speakers |
| Q30460501 | Musical experience strengthens the neural representation of sounds important for communication in middle-aged adults |
| Q30446499 | Musical training during early childhood enhances the neural encoding of speech in noise |
| Q30559848 | Musical training enhances neural processing of binaural sounds. |
| Q30449004 | Musical training heightens auditory brainstem function during sensitive periods in development |
| Q30405882 | Musicians and tone-language speakers share enhanced brainstem encoding but not perceptual benefits for musical pitch. |
| Q30403644 | Musicians' enhanced neural differentiation of speech sounds arises early in life: developmental evidence from ages 3 to 30. |
| Q41551483 | Neural Correlates of Early Sound Encoding and their Relationship to Speech-in-Noise Perception |
| Q30361558 | Neural Encoding of Speech and Music: Implications for Hearing Speech in Noise. |
| Q47314801 | Neural stability: A reflection of automaticity in reading |
| Q30479217 | Neural timing is linked to speech perception in noise |
| Q30421233 | Neurodynamics, tonality, and the auditory brainstem response |
| Q30435132 | Neuronal adaptation, novelty detection and regularity encoding in audition |
| Q92728969 | Neurophysiological, linguistic, and cognitive predictors of children's ability to perceive speech in noise |
| Q98502779 | Non-invasive peripheral nerve stimulation selectively enhances speech category learning in adults |
| Q48691527 | Novelty detection in the human auditory brainstem. |
| Q30475592 | Objective neural indices of speech-in-noise perception |
| Q30355294 | Older adults benefit from music training early in life: biological evidence for long-term training-driven plasticity. |
| Q30466788 | On Variability and Genes: Inter-individual Differences in Auditory Brain Function |
| Q30361528 | On the Etiology of Listening Difficulties in Noise Despite Clinically Normal Audiograms |
| Q30394074 | On the Relevance of Natural Stimuli for the Study of Brainstem Correlates: The Example of Consonance Perception |
| Q64105932 | Otitis Media: Long-Term Effect on Central Auditory Nervous System |
| Q57819182 | Parameters for Applying the Brainstem Auditory Evoked Potential with Speech Stimulus: Systematic Review |
| Q30403982 | Partial maintenance of auditory-based cognitive training benefits in older adults. |
| Q30392234 | Perception of speech in noise: neural correlates |
| Q30454854 | Phase-locked responses to speech in human auditory cortex are enhanced during comprehension. |
| Q92402957 | Phonological Task Enhances the Frequency-Following Response to Deviant Task-Irrelevant Speech Sounds |
| Q30444699 | Physiologic discrimination of stop consonants relates to phonological skills in pre-readers: a biomarker for subsequent reading ability?(†). |
| Q30421671 | Pitch perception |
| Q40609624 | Pitch perception and frequency-following responses elicited by lexical-tone chimeras |
| Q30421459 | Playing Music for a Smarter Ear: Cognitive, Perceptual and Neurobiological Evidence |
| Q30562291 | Prior experience biases subcortical sensitivity to sound patterns |
| Q27312666 | Processing Complex Sounds Passing through the Rostral Brainstem: The New Early Filter Model |
| Q30399488 | Rapid acquisition of auditory subcortical steady state responses using multichannel recordings. |
| Q46749222 | Recording frequency-following responses to voice pitch in guinea pigs: preliminary results |
| Q46188174 | Relative power of harmonics in human frequency-following responses associated with voice pitch in American and Chinese adults |
| Q48363350 | Remodelling at the calyx of Held-MNTB synapse in mice developing with unilateral conductive hearing loss |
| Q30449439 | Reversal of age-related neural timing delays with training. |
| Q50316828 | Role of sex hormones produced during menstrual cycle on brainstem encoding of speech stimulus |
| Q30444253 | Selective attention modulates human auditory brainstem responses: relative contributions of frequency and spatial cues |
| Q39214038 | Sensory coding and cognitive processing of sound in Veterans with blast exposure. |
| Q24619689 | Sensory-cognitive interaction in the neural encoding of speech in noise: a review |
| Q28603287 | Sex differences and endocrine regulation of auditory-evoked, neural responses in African clawed frogs (Xenopus). |
| Q30457702 | Sex differences in auditory subcortical function |
| Q92069274 | Short-Term Choir Singing Supports Speech-in-Noise Perception and Neural Pitch Strength in Older Adults With Age-Related Hearing Loss |
| Q92089086 | Sound-Field Speech Evoked Auditory Brainstem Response in Cochlear-Implant Recipients |
| Q30467102 | Spatial selective auditory attention in the presence of reverberant energy: individual differences in normal-hearing listeners |
| Q64238181 | Speech Auditory Brainstem Responses: Effects of Background, Stimulus Duration, Consonant-Vowel, and Number of Epochs |
| Q30362209 | Speech-evoked ABR: Effects of age and simulated neural temporal jitter. |
| Q49415599 | Speech-evoked Brainstem Auditory Responses and Auditory Processing Skills: A Correlation in Adults with Hearing Loss |
| Q30445034 | Speech-evoked auditory brainstem responses reflect familial and cognitive influences |
| Q30382231 | Stability and plasticity of auditory brainstem function across the lifespan. |
| Q30474905 | Stimulus rate and subcortical auditory processing of speech |
| Q47830815 | Stimulus-specific adaptation in the inferior colliculus of the mouse: anesthesia and spontaneous activity effects. |
| Q30460927 | Subcortical encoding of sound is enhanced in bilinguals and relates to executive function advantages |
| Q30392527 | Subcortical encoding of speech cues in children with congenital blindness |
| Q30449505 | Subcortical neural synchrony and absolute thresholds predict frequency discrimination independently |
| Q50208366 | Subcortical pathways: Towards a better understanding of auditory disorders. |
| Q30408276 | Subcortical processing of speech regularities underlies reading and music aptitude in children |
| Q30459384 | Subcortical representation of speech fine structure relates to reading ability |
| Q30457933 | Task-related suppression of the brainstem frequency following response |
| Q94464070 | Techniques for Obtaining High-quality Recordings in Electrocochleography |
| Q30458583 | Test-retest consistency of speech-evoked auditory brainstem responses in typically-developing children |
| Q30470866 | Test-retest reliability of the speech-evoked auditory brainstem response |
| Q30393831 | The Acoustic Properties of Low Intensity Vocalizations Match Hearing Sensitivity in the Webbed-Toed Gecko, Gekko subpalmatus |
| Q30381440 | The Auditory-Brainstem Response to Continuous, Non-repetitive Speech Is Modulated by the Speech Envelope and Reflects Speech Processing. |
| Q91710219 | The Effects of Random Stimulation Rate on Measurements of Auditory Brainstem Response |
| Q30355353 | The Linked Dual Representation model of vocal perception and production. |
| Q30458077 | The Potential Role of the cABR in Assessment and Management of Hearing Impairment |
| Q30373760 | The Role of Age-Related Declines in Subcortical Auditory Processing in Speech Perception in Noise |
| Q30559692 | The ability to move to a beat is linked to the consistency of neural responses to sound. |
| Q30427524 | The auditory brain-stem response to complex sounds: a potential biomarker for guiding treatment of psychosis |
| Q38178363 | The auditory novelty system: an attempt to integrate human and animal research |
| Q30416139 | The cortical modulation of stimulus-specific adaptation in the auditory midbrain and thalamus: a potential neuronal correlate for predictive coding. |
| Q30472161 | The frequency following response (FFR) may reflect pitch-bearing information but is not a direct representation of pitch |
| Q42216407 | The human auditory brainstem response to running speech reveals a subcortical mechanism for selective attention. |
| Q44092790 | The impoverished brain: disparities in maternal education affect the neural response to sound. |
| Q30366799 | The neural encoding of formant frequencies contributing to vowel identification in normal-hearing listeners. |
| Q30431180 | The role of the auditory brainstem in processing musically relevant pitch. |
| Q30369246 | Timing predictability enhances regularity encoding in the human subcortical auditory pathway. |
| Q48480318 | Topographic recordings of auditory evoked potentials to speech: subcortical and cortical responses |
| Q50316644 | Towards Objective Measures of Functional Hearing Abilities. |
| Q53404861 | Tracing the Trajectory of Sensory Plasticity across Different Stages of Speech Learning in Adulthood. |
| Q30454926 | Training to improve hearing speech in noise: biological mechanisms |
| Q89948253 | Utilizing Electrocochleography as a Microphone for Fully Implantable Cochlear Implants |
| Q47904293 | Variance decomposition for single-subject task-based fMRI activity estimates across many sessions |
| Q33810056 | Vowel decoding from single-trial speech-evoked electrophysiological responses: A feature-based machine learning approach |
| Q50435297 | What subcortical-cortical relationships tell us about processing speech in noise |
| Q30450209 | Why middle-aged listeners have trouble hearing in everyday settings. |
| Q30404674 | Why would Musical Training Benefit the Neural Encoding of Speech? The OPERA Hypothesis |
Search more.