Modeling the measurements of cochlear microcirculation and hearing function after loud noise
Objective. Recent findings support the crucial role of microcirculatory disturbance and ischemia for hearing impairment especially after noise-induced hearing loss (NIHL). The aim of this study was to establish an animal model for in vivo analysis of cochlear microcirculation and hearing function af...
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th-cmuir.6653943832-501832018-09-04T04:26:07Z Modeling the measurements of cochlear microcirculation and hearing function after loud noise Warangkana Arpornchayanon Martin Canis Markus Suckfuell Fritz Ihler Bernhard Olzowy Sebastian Strieth Medicine Objective. Recent findings support the crucial role of microcirculatory disturbance and ischemia for hearing impairment especially after noise-induced hearing loss (NIHL). The aim of this study was to establish an animal model for in vivo analysis of cochlear microcirculation and hearing function after a loud noise to allow precise measurements of both parameters in vivo. Study Design. Randomized controlled trial. Setting. Animal study. Subjects and Methods. After assessment of normacusis (0 minutes) using evoked auditory brainstem responses (ABRs), noise (106-dB sound pressure level [SPL]) was applied to both ears in 6 guinea pigs for 30 minutes while unexposed animals served as controls. In vivo fluorescence microscopy of the stria vascularis capillaries was performed after surgical exposure of 1 cochlea. ABR measurements were derived from the contralateral ear. Results. After noise exposure, red blood cell velocity was reduced significantly by 24.3% (120 minutes) and further decreased to 44.5% at the end of the observation (210 minutes) in contrast to stable control measurements. Vessel diameters were not affected in both groups. A gradual decrease of segmental blood flow became significant (38.1%) after 150 minutes compared with controls. Hearing thresholds shifted significantly from 20.0 ± 5.5 dB SPL (0 minutes) to 32.5 ± 4.2 dB SPL (60 minutes) only in animals exposed to loud noise. Conclusion. With regard to novel treatments targeting the stria vascularis in NIHL, this standardized model allows us to analyze in detail cochlear microcirculation and hearing function in vivo. © American Academy of Otolaryngology - Head and Neck Surgery Foundation 2011. 2018-09-04T04:26:07Z 2018-09-04T04:26:07Z 2011-09-01 Journal 10976817 01945998 2-s2.0-80055083903 10.1177/0194599811407829 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=80055083903&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/50183 |
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Medicine Warangkana Arpornchayanon Martin Canis Markus Suckfuell Fritz Ihler Bernhard Olzowy Sebastian Strieth Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| description |
Objective. Recent findings support the crucial role of microcirculatory disturbance and ischemia for hearing impairment especially after noise-induced hearing loss (NIHL). The aim of this study was to establish an animal model for in vivo analysis of cochlear microcirculation and hearing function after a loud noise to allow precise measurements of both parameters in vivo. Study Design. Randomized controlled trial. Setting. Animal study. Subjects and Methods. After assessment of normacusis (0 minutes) using evoked auditory brainstem responses (ABRs), noise (106-dB sound pressure level [SPL]) was applied to both ears in 6 guinea pigs for 30 minutes while unexposed animals served as controls. In vivo fluorescence microscopy of the stria vascularis capillaries was performed after surgical exposure of 1 cochlea. ABR measurements were derived from the contralateral ear. Results. After noise exposure, red blood cell velocity was reduced significantly by 24.3% (120 minutes) and further decreased to 44.5% at the end of the observation (210 minutes) in contrast to stable control measurements. Vessel diameters were not affected in both groups. A gradual decrease of segmental blood flow became significant (38.1%) after 150 minutes compared with controls. Hearing thresholds shifted significantly from 20.0 ± 5.5 dB SPL (0 minutes) to 32.5 ± 4.2 dB SPL (60 minutes) only in animals exposed to loud noise. Conclusion. With regard to novel treatments targeting the stria vascularis in NIHL, this standardized model allows us to analyze in detail cochlear microcirculation and hearing function in vivo. © American Academy of Otolaryngology - Head and Neck Surgery Foundation 2011. |
| format |
Journal |
| author |
Warangkana Arpornchayanon Martin Canis Markus Suckfuell Fritz Ihler Bernhard Olzowy Sebastian Strieth |
| author_facet |
Warangkana Arpornchayanon Martin Canis Markus Suckfuell Fritz Ihler Bernhard Olzowy Sebastian Strieth |
| author_sort |
Warangkana Arpornchayanon |
| title |
Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| title_short |
Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| title_full |
Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| title_fullStr |
Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| title_full_unstemmed |
Modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| title_sort |
modeling the measurements of cochlear microcirculation and hearing function after loud noise |
| publishDate |
2018 |
| url |
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=80055083903&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/50183 |
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