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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      The purposes of this study were 1) to provide information of the efficient diagnosis, evaluation and treatment for auditory processing disorder; and 2) to reveal nature and neurolingustic characteristic of central auditory processing disorder. So literature was to examine and to make an analysis of dichotic listening, temporal processing, and binaural interaction about neurolingustic aspect.
        The results of this study were as follows:
        First, dichotic listening is relative lesion of temporal lobe, corpus callosum, and brain stem as well as sensorineural hearing disorder and brain disease influenced corpus callosum. And front lesion of corpus callosum may affect of dichotic listening but back lesion of corpus callosum maynt affect that.
        Second, temporal processing ability is influenced lesion of temporal lobe, corpus callosum as well as cochlear damage but cochlear damage is influenced little. The temporal processing test is prediction to measure speech perception ability of central system level. Right temporal lobe lesion may influence performance ability of signal pattern task and order task and left temporal lobe lesion may influence bilateral ear performance of temporal processing. The corpus callosum lesion may affect of temporal processing ability expect temporal integration.
        Finally, binaural interaction may be affected lesion of temporal lobe, corpus callosum and little is affected cochlear and middle ear lesion. The binaural  integration function and masking level difference (MLD) is relative lesion of brain stem.
        Consequently, lesion of cortex, corpus callosum, and brain stem may affect directly auditory processing disorder and auditory processing disorder may be affect indirectly something influenced cortex, corpus callosum, and brain stem. But function of cerebral cortex is still disputing about pathway model and network model. And activity part of brain different according to contents of information process. So, we limit to reveal that auditory processing disorder is analyzed aspect neurological system.
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      The purposes of this study were 1) to provide information of the efficient diagnosis, evaluation and treatment for auditory processing disorder; and 2) to reveal nature and neurolingustic characteristic of central auditory processing disorder. So lite...

      The purposes of this study were 1) to provide information of the efficient diagnosis, evaluation and treatment for auditory processing disorder; and 2) to reveal nature and neurolingustic characteristic of central auditory processing disorder. So literature was to examine and to make an analysis of dichotic listening, temporal processing, and binaural interaction about neurolingustic aspect.
        The results of this study were as follows:
        First, dichotic listening is relative lesion of temporal lobe, corpus callosum, and brain stem as well as sensorineural hearing disorder and brain disease influenced corpus callosum. And front lesion of corpus callosum may affect of dichotic listening but back lesion of corpus callosum maynt affect that.
        Second, temporal processing ability is influenced lesion of temporal lobe, corpus callosum as well as cochlear damage but cochlear damage is influenced little. The temporal processing test is prediction to measure speech perception ability of central system level. Right temporal lobe lesion may influence performance ability of signal pattern task and order task and left temporal lobe lesion may influence bilateral ear performance of temporal processing. The corpus callosum lesion may affect of temporal processing ability expect temporal integration.
        Finally, binaural interaction may be affected lesion of temporal lobe, corpus callosum and little is affected cochlear and middle ear lesion. The binaural  integration function and masking level difference (MLD) is relative lesion of brain stem.
        Consequently, lesion of cortex, corpus callosum, and brain stem may affect directly auditory processing disorder and auditory processing disorder may be affect indirectly something influenced cortex, corpus callosum, and brain stem. But function of cerebral cortex is still disputing about pathway model and network model. And activity part of brain different according to contents of information process. So, we limit to reveal that auditory processing disorder is analyzed aspect neurological system.

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      참고문헌 (Reference)

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      3 "중추 청각정보처리 장애 진단평가 시스템 모형 개발" 14 (14): 71-104, 2005

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      8 "Random gap detection test" St. Louis, MO : Auditec 2000c

      9 Ungerleider, L. G, "Functional brain imaging studies of cortical mechanims for memory" 270 : 769-775, 1995

      10 "Functional asymmetries in the auditory system" 106 : 23-30, 1997

      1 "청각정보처리장애의 선별 모형 개발" 15 (15): 37-57, 2006

      2 "중추성 청각정보처리 장애의 특성 고찰" 5 (5): 45-70, 2004

      3 "중추 청각정보처리 장애 진단평가 시스템 모형 개발" 14 (14): 71-104, 2005

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      7 "Significance of unilateral ear extinction on the dichotic listening test" 17 : 108-, 1995

      8 "Random gap detection test" St. Louis, MO : Auditec 2000c

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      37 F. E, ". Selected issues in screening for central auditory processing dysfunction. Seminars in Hearing 11" 372-384, 1990

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      50 Rubens, ". Left ear suppression on verbal dichotic tests in patients with multiple sclerosis. Annals of Neurology" 459-463, 1985

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      54 Pinheiro, ". Interaural intensity difference for intracranial localization. Journal of the Acoustical Society of America" 1482-1487, 1969

      55 Thompson, ". Indices of hearing in patients with central auditory pathology. Ⅱ" 35 17-22, 1992b

      56 Thompson, ". Indices of hearing in patients with central auditory pathology. I" 35 3-15, 1992a

      57 ". Further research in localization of sound by completely monaural subjects Journal of Auditory Research" 265-273, 1976

      58 F. E, ". Frequency patterns in cochlear" 79-88, 1987

      59 ". Factors influencing the masking level difference in cochlear hearing-impaired and normal-hearing listeners. Journal of Speech and Hearing Research" 145-154, 1984

      60 F, ". Electrophysiologic and behavioral auditory findings in multiple sclerosis. American Journal of Otology" 343-350, 1985

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      80 Swisher, ". Brain damage and the ordering of two temporally successive stimuli. Neuropsychologia" 137-152, 1972

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      89 F, ". A Clinical test for sound localization and its applications. Neurology" 655-663, 1957

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