about
Plasticity of tonotopic maps in humans: influence of hearing loss, hearing aids and cochlear implantsAuditory steady state responses and cochlear implants: Modeling the artifact-response mixture in the perspective of denoisingRelationship between age of hearing-loss onset, hearing-loss duration, and speech recognition in individuals with severe-to-profound high-frequency hearing loss.Clinical relevance of medial efferent auditory pathways.Psychometric normalization of a hyperacusis questionnaire.Increased perception of loudness in autism.Enhanced frequency discrimination in hearing-impaired individuals: a review of perceptual correlates of central neural plasticity induced by cochlear damage.A new method to test the efficiency of Cochlear Implant artifacts removal from Auditory Evoked Potentials.Asymmetrical localization of benzodiazepine receptors in the human auditory cortex.Evoked otoacoustic emissions: correlates between spectrum analysis and audiogram.Differential effects of ear-canal pressure and contralateral acoustic stimulation on evoked otoacoustic emissions in humans.Influence of benzodiazepines on auditory perception.Lateralization of the effects of the benzodiazepine drug oxazepam on medial olivocochlear system activity in humans.Influence of aging on active cochlear micromechanical properties and on the medial olivocochlear system in humans.Speech Auditory Brainstem Response through hearing aid stimulation.Stacked tone-burst-evoked auditory brainstem response (ABR): preliminary findings.Functional asymmetries of crossed and uncrossed medial olivocochlear efferent pathways in humans.Simple reaction times in subjects with steeply sloping hearing loss: is there an alteration at the edge of the loss?Peripheral auditory lateralization assessment using TEOAEs.Electrophysiological findings in two bilateral cochlear implant cases: does the duration of deafness affect electrically evoked auditory brain stem responses?Medial olivocochlear bundle activation and perceived auditory intensity in humans.Evidence of peripheral auditory activity modulation by the auditory cortex in humans.Effect of contralateral acoustic stimulation on the growth of click-evoked otoacoustic emissions in humans.Peripheral auditory asymmetry in infantile autism.Speech restoration: an interactive process.Auditory processing disorder in children with reading disabilities: effect of audiovisual training.The auditory acclimatization effect in sensorineural hearing-impaired listeners: evidence for functional plasticity.Intensity-related performances are modified by long-term hearing aid use: a functional plasticity?Click-evoked otoacoustic emissions and hearing threshold in sensorineural hearing loss.[Exploration of the auditory system in humans: From click to speech auditory brainstem responses].Effect of stimulus frequency and stimulation site on the N1m response of the human auditory cortexThe effects of an audio-visual training program in dyslexic children[Peripheral auditory lateralization]Effect of contralateral auditory stimuli on active cochlear micro-mechanical properties in human subjects
P50
Q28262024-B1631488-1FB7-4427-B1B3-AD96BACA4FA4Q30359336-5D1FC5D8-7ED5-461A-A1A0-D76CFEAB03FDQ30465219-0C9F5D4A-3FAA-4039-9F23-40D179138C57Q33914294-AFCBF21F-9F04-4905-9ECF-D9DF161AB245Q33963338-BDD69D8A-E542-4C17-979E-D245DA720686Q33983998-5170C340-F3E1-4426-BEDF-0E711F715E52Q36893957-673AAB2B-EC5B-460D-A9B5-92D3D2575365Q38686140-2E9F2276-4188-423C-96BB-AB8D09C4C0D7Q43605215-D8B782E2-3679-4270-A81F-A02FD271917CQ43861188-AAE267A7-1465-40BE-9DFE-9123CD9DF69FQ43932282-9958E615-F65D-4078-AF95-07A3503B1DB4Q44374813-B189164C-4279-44E1-9284-329D6757954EQ46579247-0230F471-6C7D-4AF7-8CD7-AADC319C16E0Q48105846-698DA410-E943-4993-A1B9-1330511002ADQ48253029-D2A41BE3-357A-4A0A-BE5D-8DBCC4C31F07Q48362740-3F49C6C8-3CA4-411B-9867-3C7B39F4A4B0Q48375912-444E253A-9329-4870-8364-AE4EDEF73EC6Q48411623-BBC6F30D-2215-459E-ADD9-85A8DB001AAAQ48421975-9028C910-1561-41D8-9CEE-6FFECE70B892Q48439176-A6921875-23A0-48E4-9644-4EEE986D7BD3Q48452591-7F6A2DF3-9E9C-47E9-A0FB-2580451B5B9EQ48866763-6DBA7FDB-03E0-4169-A854-08FB6891192DQ49031923-0FB56224-1A04-47FE-B1F0-294620F42818Q49043464-3EEDD0DB-5E7D-4A1D-86C3-303F5C491B15Q50449158-2F1E8078-2950-4064-83B5-CBE6EA91F40AQ50455383-E4235343-3B52-4909-BF2E-D3D1AEDD61FEQ50472508-983A4F14-6A9A-448F-898F-50B6E2A4CA73Q50487728-7AFAF472-28AD-4A9A-A22B-1691FCBA7686Q50530732-885DB7AE-F916-4C68-B066-AAA4B8FAAD14Q51895220-454DC899-C77D-4C0E-8534-EDB9F3ED3023Q58075381-E2A4D490-57CD-4C82-BC51-6DD1200D66CEQ58075395-7AC7EA48-10EE-4DE4-8019-9A0E8BAF8DB1Q58075615-EF13AE8A-95C4-4AB0-9931-94D45C311C28Q58075806-FF82FEA2-2329-4A45-B73B-5C0D0EE7CFDB
P50
description
Forscher
@de
chercheur
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investigador
@es
researcher
@en
wetenschapper
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հետազոտող
@hy
研究者
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name
Evelyne Veuillet
@ast
Evelyne Veuillet
@en
Evelyne Veuillet
@es
Evelyne Veuillet
@nl
type
label
Evelyne Veuillet
@ast
Evelyne Veuillet
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Evelyne Veuillet
@es
Evelyne Veuillet
@nl
prefLabel
Evelyne Veuillet
@ast
Evelyne Veuillet
@en
Evelyne Veuillet
@es
Evelyne Veuillet
@nl
P106
P31
P496
0000-0002-4068-0130