최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Brazilian journal of otorhinolaryngology, v.74 no.2, 2008년, pp.235 - 240
Samelli, A.G. , Schochat, E.
Temporal resolution hearing skills are based on the minimum time necessary to segregate or solve acoustic events. This skill is fundamental for speech comprehension and can be assessed by gap detection tests. Some studies point to a right ear advantage over the left ear in temporal resolution tasks,...
1 Phillips DP Taylor TL Hall SE Carr MM Mossop JE. Detection of silent intervals between noises activating different perceptual channels: some properties of “central” auditory gap detection J Ac Soc Am 101 6 1997 3694 3705
2 Schulte-Körne G Deimel W Bartling J Remschmidt H. Role of auditory temporal processing for reading and spelling disability Perc Motor Sk 86 1998 1043 1047
3 Phillips DP Hall SE Harrington IA Taylor TL. “Central” auditory gap detection: a spatial case J Acoust S Am 103 4 1998 2064 2068
4 Wiegrebe L Krumbholz K. Temporal resolution and temporal masking properties of transient stimuli: data and an auditory model J Acoust S Am 105 5 1999 2746 2756
5 He N Horwitz AR Dubno JR Mills JH. Psychometric functions for gap detection in noise measured from young and aged subjects J Acoust S Am 106 2 1999 966 978
6 Florentine M Buus S Geng W. Psychometric functions for gap detection in a yes-no procedure J Acoust S Am 106 6 1999 3512 3520
7 Oxenham AJ. Influence of spatial and temporal coding on auditory gap detection J Acoust S Am 107 4 2000 2215 2223
8 Irwin RJ Ball AKR Kay N Stillman JA Rosser J. The development of auditory temporal acuity in children Child Dev 56 3 1985 614 620 4006570
9 Shinn JB. Temporal processing: the basics Hear J 56 7 2003 52
10 Giraudi-Perry DM Salvi RJ Henderson D. Gap detection in hearing-impaired chinchillas J Acoust S Am 72 5 1982 1387 1393
11 Snell KB Hu H. The effect of temporal placement on gap detectability J Acoust S Am 106 6 1999 3571 3577
12 Phillips DP. Effect of tone-pulse rise time on rate-level functions of cat auditory cortex neurons: excitatory and inhibitory processes shaping responses to tone onset J Neurophysiol 59 5 1988 1524 1539 3385471
13 Phillips DP Hall SE. Response timing constraints on the cortical representation of sound time structure J Acoust S Am 88 3 1990 1403 1411
14 Phillips DP Sark S.A. Separate mechanisms control spike numbers and inter-spike intervals in transient responses of cat auditory cortex neurons Hear Res 53 1999 17 27
15 Phillips DP. Neural representation of stimulus times in the primary auditory cortex An NY Acad Sci 682 1993 104 118 1993
16 Phillips DP. Representation of acoustic events in the primary auditory cortex J Exp Psychol 19 1 1993 203 216 1993
17 Phillips DP. Central auditory processing: a view from auditory neuroscience Am J Otol 16 3 1995 338 352 8588629
18 Eggermont JJ. Firing rate and firing synchrony distinguish dynamic from steady state sound Neuroreport 8 12 1997 2709 2713 9295105
19 Horikawa J Hosokawa Y Nasu M Taniguchi I. Optical study of spatiotemporal inhibition evoked by two-tone sequences in the guinea pi auditory cortex J Comp Physiol 181 1997 677 684 9449826
20 Kilgard MP Merzenich MM. Distributed representation of spectral and temporal information in rat primary auditory cortex Hear Res 134 1999 16 28 10452372
21 Eggermont JJ. Neural responses in primary auditory cortex mimic psychophysical, across-frequency-channel, gap-detection thresholds J Neurophysiol 84 2000 1453 1463 10980018
22 Heil P. Representation of sound onsets in the auditory system Audiol Neurootol 6 2001 167 172 11694721
23 Rupp A Gutschalk A Hack S Scherg M. Temporal resolution of the human primary auditory cortex in gap detection Neuroreport 13 17 2002 2203 2207 12488797
24 Sugimoto S Hosokawa Y Horikawa J Nasu M Taniguchi I. Spatial focusing of neuronal responses induced by asynchronous two-tone stimuli in the guinea pig auditory cortex Cortex Cerebral 12 5 2002 506 514
25 Hall DA Hart HC Johnsrude IS. Relationships between human auditory cortical structure and function Audiol Neurootol 8 1 2003 1 18 12566688
26 DeWeese MR Wehr M Zador AM. Binary spiking in auditory cortex J Neurosci 23 21 2003 7940 7949 12944525
27 Hackett TA Preuss TM Kaas JH. Architectonic identification of the core region in auditory cortex of macaques, chimpanzees, and humans J Comp Neurol 441 2001 197 222 11745645
28 Penhune VB Zatorre RJ MacDonald JD Evans AC. Interhemispheric anatomical differences in human primary auditory cortex: probabilistic mapping and volume measurement from magnetic resonance scans Cereb Cortex 6 5 1996 661 672 8921202
29 Rupp A Hack S Gutschalk A Schneider P Picton TW Stippich C Scherg M. Fast temporal interactions in human auditory cortex Neuroreport 11 17 2000 3731 3736 11117481
30 Kass JH Hackett TA. Subdivisions of auditory cortex and processing streams in primates Proc Nat Acad Sci USA 97 22 2000 11793 11799 11050211
31 Rubens AB. Anatomical asymmetries of human cerebral cortex Harnad S Doty RW Goldstein L Jaynes J Krauthamer G. Lateralization in the nervous system 1977 Academic Press New York 503 516
32 Musiek FE Reeves AG. Asymmetries of the auditory areas of the cerebrum J Am Acad Audiol 1 1990 240 245 2132609
33 Zatorre RJ Belin P. Spectral and temporal processing in human auditory cortex Cereb Cortex 11 10 2001 946 953 11549617
34 Brown S Nicholls MER. Hemispheric asymmetries for the temporal resolution of brief auditory stimuli Percep Psychophys 59 3 1997 442 447
35 Sulakhe N Elias LJ Lejbak L. Hemispheric asymmetries for gap detection depend on noise type Brain Cogn 53 2 2003 372 375 14607184
36 Efron R Yund EW Nichols D Crandall PH. An ear asymmetry for gap detection following anterior temporal lobectomy Neuropsychol 23 1 1985 43 50
37 Baker RJ Rosen S Godrich A. No right ear advantage in gap detection Speech, Hearing and Language (UCL work in progress) 12 2000 57 69
38 Musiek FE Shinn JB Jirsa R Bamiou DE Baran JA GIN (Gaps-In-Noise) Test Performance in Subjects with Confirmed Central Auditory Nervous System Involvement Ear Hear 26 6 2005 608 618 16377996
39 Previc FH. A general theory concerning the prenatal origins of cerebral lateralization in humans Psychol Rev 98 3 1991 299 334 1891521
40 Jerger J Musiek FE. Report of the consensus conference in the diagnosis of auditory processing disorders in school-aged children J Am Acad Audiol 11 9 2000 467 474 11057730
41 Yantis PA. Avaliação dos limiares auditivos por via aérea Katz J. Tratado de Audiologia Clínica 1999 Ed. Manole São Paulo Capítulo 7
44 Santos MFC. Processamento auditivo central: teste dicótico de dígitos em crianças e adultos normais [tese] 1998 Escola Paulista de Medicina (Unifesp) São Paulo
45 Musiek FE Zaidan EP Baran JA Shinn JB Jirsa RE. Assessing temporal processes in adults with LD: the GIN test Convention of American Academy of Audiology 2004 March - April AAA Salt Lake City. Annals… Salt Lake City 203 2004
46 Baran J Musiek FE. Behavioral Assessment of the Central Auditory System Musiek FE Rintelmann W Contemporary Perspectives on Hearing Assessment 1999 Allyn & Bacon Boston Capítulo 13
47 Temple E Poldrack RA Protopapas A Nagarajan S Salz T Tallal P Merzenich MM. Disruption of the neural response to rapid acoustic stimuli in dyslexia: evidence from functional MRI Proc Nat Acad Sci USA 97 25 2000 13907 13912 11095716
48 Buonomano DV Karmarkar UR. How do we tell time? The Neuroscientist 8 1 2002 42 51 11843098
42 Hall JW Chandler D. Timpanometria na audiologia clínica Katz J. Tratado de Audiologia Clínica 1999 Ed. Manole São Paulo Capítulo 20
43 Northen JL Gabbard SA. Reflexo acústico Katz J. Tratado de Audiologia Clínica 1999 Ed. Manole São Paulo Capítulo 21
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.