Gap detection deficits in humans with tinnitus as assessed with the acoustic startle paradigm: does tinnitus fill in the gap?
about
Alterations in peripheral and central components of the auditory brainstem response: a neural assay of tinnitusSalicylate-induced hearing loss and gap detection deficits in rats.Elevated Acoustic Startle Responses in Humans: Relationship to Reduced Loudness Discomfort Level, but not Self-Report of Hyperacusis.Psychoacoustic assessment to improve tinnitus diagnosisClinical Validation of a New Tinnitus Assessment Technology.Differential Neural Responses Underlying the Inhibition of the Startle Response by Pre-Pulses or Gaps in Mice.The effects of repetitive transcranial magnetic stimulation in an animal model of tinnitus.A Conditioned Behavioral Paradigm for Assessing Onset and Lasting Tinnitus in RatsUnderlying mechanisms of tinnitus: review and clinical implicationsProgression of temporal processing deficits in the HIV-1 transgenic ratGLAST Deficiency in Mice Exacerbates Gap Detection Deficits in a Model of Salicylate-Induced Tinnitus.Increased Synchrony and Bursting of Dorsal Cochlear Nucleus Fusiform Cells Correlate with Tinnitus.Modulation of Prepulse Inhibition and Startle Reflex by Emotions: A Comparison between Young and Older AdultsIncreased contralateral suppression of otoacoustic emissions indicates a hyperresponsive medial olivocochlear system in humans with tinnitus and hyperacusis.Effects of unilateral acoustic trauma on tinnitus-related spontaneous activity in the inferior colliculusNoise-induced plasticity of KCNQ2/3 and HCN channels underlies vulnerability and resilience to tinnitus.Dopamine in the auditory brainstem and midbrain: co-localization with amino acid neurotransmitters and gene expression following cochlear traumaTinnitus: animal models and findings in humans.The Gap Detection Test: Can It Be Used to Diagnose Tinnitus?Gap-Prepulse Inhibition of the Acoustic Startle Reflex (GPIAS) for Tinnitus Assessment: Current Status and Future Directions.Is noise-induced cochlear neuropathy key to the generation of hyperacusis or tinnitus?Neural changes accompanying tinnitus following unilateral acoustic trauma in the guinea pig.Induction of enhanced acoustic startle response by noise exposure: dependence on exposure conditions and testing parameters and possible relevance to hyperacusis.Spontaneous behavior in noise and silence: a possible new measure to assess tinnitus in Guinea pigs.Changes in the response properties of inferior colliculus neurons relating to tinnitusBehavioral models of tinnitus and hyperacusis in animals.Age effects on tinnitus and hearing loss in CBA/CaJ mice following sound exposure.Insult-induced adaptive plasticity of the auditory systemBehavioral evidence for possible simultaneous induction of hyperacusis and tinnitus following intense sound exposure.Animal models of subjective tinnitus.Parameter optimization for applying the prepulse gap paradigm to humans.Does tinnitus "fill in" the silent gaps?Temporal processing evaluation in tinnitus patients: results on analysis of gap in noise and duration pattern test.The gap-startle paradigm to assess auditory temporal processing: Bridging animal and human research.The auditory cortex and tinnitus – a review of animal and human studies.Small Compartment Toxicity: CN VIII and Quality of Life: Hearing Loss, Tinnitus, and Balance Disorders.Reductions in cortical alpha activity, enhancements in neural responses and impaired gap detection caused by sodium salicylate in awake guinea pigs.Improving the Reliability of Tinnitus Screening in Laboratory Animals.Temporal processsing demands in the HIV-1 transgenic rat: Amodal gating and implications for diagnostics.Selective developmental alterations in The HIV-1 transgenic rat: Opportunities for diagnosis of pediatric HIV-1.
P2860
Q28388207-8DB3C7D5-5A33-4338-9D7C-DDCA9C21813BQ28388216-BF87DE0C-9DFE-47AC-96A5-A255153BBCD6Q30355177-E6D574D1-8307-41D2-9251-20F73B3A89DDQ30357001-A72941FA-EC57-41A0-8690-40F35E3CF209Q30361662-A5423954-6036-42DB-830D-F466D123A8FCQ30362692-A6024128-A72B-4689-AFDE-4E193DE68FA2Q30368001-DAA37FCC-09A4-4F8F-AD0D-188D85656FB7Q30368302-61D58F51-71B7-4D37-A5BA-D606D2581D51Q30372474-47BF520C-E0C2-4B48-9C09-2F4C883957E4Q30374656-98B4F5BF-1BE9-4338-B083-689C2E5D7E3BQ30375593-21E325F8-1C80-487A-80FB-82F45C010772Q30376748-23A1340D-7EEE-40B8-81FB-AFF10B60A87FQ30389211-936ACA10-E968-462D-828D-3C11E6837633Q30396032-3E786F07-3FAA-433F-AFE1-D5AE6434B34FQ30397350-F527D58B-73CD-4C3B-B17D-0E9A455CA6E3Q30401440-766B01CF-34A0-4064-80E9-96B8C3B6183FQ30405141-EBE6E627-C86A-4D9A-9092-A8D65E04427CQ30407377-702D37DC-5880-4EBB-9851-85325D8432A2Q30407390-B5E8E0DB-14D8-4E1B-BD54-56951E47E198Q30412109-EC491115-EDFC-4A5D-B4E0-97C42585465EQ30419844-0899AF22-BF1E-48EE-8D2C-6F75F97DF905Q30425806-1CA60027-5E78-4D15-AABC-D1FEA948D68CQ30426739-5B392A29-9983-480E-80AB-9180367E2627Q30427413-CEBFF12E-4892-420B-A5C5-557B4FF2E013Q30427763-5A76F3C9-8758-4B66-B3BF-20FAB6F189DCQ30429207-DE22273A-DD7A-427E-93DC-037B079A878DQ30429454-2AEA50CA-499B-4ACD-9A59-CD1F3821855AQ30437180-A73BC960-2FBD-48D5-A327-8DEF2BF7A30AQ30437578-2EE0B7FC-D9F1-439F-9959-CF2365452987Q30438527-54791A1C-76A7-4A22-9A0D-9852FD3F4B65Q30441476-9D801D97-2EFD-4BF6-8A84-03901C214475Q30445324-ECD3C9FB-A65B-4224-B6BF-3646D1E3D12DQ30446342-36C8B22C-8DAF-4134-A737-FD34302EEDD8Q30570519-6B871547-14E6-4B4E-8214-A02542E3FA4FQ38366455-BC7CF072-A9C7-4308-9341-2D3F25CEC0AEQ38838058-8185CC3C-1C30-4A04-B54F-2BFA59AF0F9BQ39174973-BF35E94F-87FB-4D46-9D1B-201B4AFA949AQ39222153-CAAA48E6-E603-47A7-BBD9-D9830015F8A4Q40400564-C99212E3-0169-43FD-BCA3-C6E098FD3B9FQ40570704-F1FB90A1-1E74-4C91-A9DE-D042F0DDADF1
P2860
Gap detection deficits in humans with tinnitus as assessed with the acoustic startle paradigm: does tinnitus fill in the gap?
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
name
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@ast
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@en
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@nl
type
label
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@ast
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@en
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@nl
prefLabel
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@ast
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@en
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@nl
P1433
P1476
Gap detection deficits in huma ...... does tinnitus fill in the gap?
@en
P2093
Philippe Fournier
Sylvie Hébert
P356
10.1016/J.HEARES.2012.05.011
P577
2012-06-09T00:00:00Z