Effect of Stimulus Rate and Gender on Auditory Brainstem Response in Korean Young Adults

Chul-Hee Choi; Ki-Hyeon Jang; Seong Hee Choi

서지반출

영문초록

The main objective of this study was to determine the effect of stimulus rate and gender on auditory brainstem response (ABR) latency and amplitude in Korean young adults. A total of thirty young adults consisting of fifteen males and fifteen females participated in the study. We performed this study by analyzing the latencies and amplitudes of ABR wave I, Ⅲ, and V as a function of low stimulus rate and gender. The stimulus repetition rate was changed in five steps: 8, 16, 21, 32, and 64/s. Experimental results showed that when stimulus rates increased, significant differences in the latency and amplitude of wave I, Ⅲ, and V were observed while a gender effect was found on the latency of wave Ⅲ and the amplitudes of wave I and Ⅲ. As stimulus rates increased, the latencies of wave I, Ⅲ, and V consistently and progressively increased, whereas the amplitudes of ABR waves inconsistently changed. The latency shift became longer in wave V than wave I and Ⅲ. The amplitude of wave I, Ⅲ, and V was greatest at a stimulus rate of 21/s and least at a stimulus rate of 32/s, compared to those of other stimulus rates. This study will provide beneficial information in developing proper strategies that optimize and enhance the ABR wave latencies and amplitudes in different gender groups, saving the ABR test time in clinical applications, and establishing a quantitatively normative database for clinical purposes.

키워드

Stimulus rate Gender Auditory Brainstem Response (ABR)Latency Amplitude

참고문헌 (51건)

Antonelli, A. R., Bellotto, R., & Grandori, F. (1987). Audiologic diagnosis of central versus eighth nerve and cochlear auditory impairment. Audiology, 26(4), 209-226.
American Speech-Language-Hearing Association (ASHA). (1998). The short latency auditory evoked potentials. Rockville, MD: Author.
Campbell, K. C. & Abbas, P. J. (1987). The effect of stimulus repetition rate on the auditory brainstem response in tumor and nontumor patients. Journal of Speech and Hearing Research, 30(4), 494-502.
Cha, O. S. (2004). Auditory brainstem responses using the chained-sound stimuli protocol. Master thesis. Hallym University. Chuncheon.
Chambers, R. D., Matties, M. L, & Griffiths, S. K. (1989). Correlations between various measures of head size and auditory brainstem response latencies. Hearing Research, 41(2-3), 179-88.
Choi, C-H. (2011). Preliminary study of therapeutic effect of a nitone-based antioxidant drug (HPN-07) on acute acoustic trauma. Korean Journal of Communication Disorders, 16(2), 202-210.
Choi, H. J. (2006). Auditory brainstem response (ABR) results in NICU. Master thesis. Kyungpook University. Daegu.
Choi, H. Y., Lee, M. C., Jang, S. O., Oh, S. H., Kim, J. S., & Choi, J. H. (2004). The efficacy of automated distortion product otoacoustic emission and automated auditory brainstem responses in universal hearing screening. Korean Journal of Otorhinolaryngology-Head and Neck Surgery, 47(1), 27-32.
Don, M., Allen, A. R., & Starr, A. (1977). Effect of click rate on the latency of auditory brain stem responses in humans. Annals of Otology, Rhinology, and Laryngology, 86, 186-195.
Don, M., Ponton, C., Eggermont, J., & Masuda, A. (1994). Auditory brainstem response (ABR) peak amplitude variability reflects individual differences in cochlear response times. Journal of the Acoustical Society of America, 96, 3476-3491.
Fowler, C. & Noffsinger, D. (1983). Effects of stimulus repetition rate and frequency on the auditory brainstem response in normal, cochlearimplanted, and Ⅷ nerve/brainstem-impaired subjects. Journal of Speech and Hearing Research, 26(4), 560-567.
Freeman, S., Sohmer. H., & Silver, S. (1991). The effect of stimulus repetition rate on the diagnostic efficacy of the auditory nerve-brain-stem evoked response. Electroencephalography and Clininical Neurophysiology, 78(4), 284-290.
Gerling, I. J. (1989). Interaction of stimulus parameters on the auditory brainstem response: A normal variant. Ear and Hearing, 10(2), 117-123.
Hall J. W. Ⅲ (1992). Handbook of Auditory Evoked Responses (pp. 70-103). Boston, MA: Allyn and Bacon.
Hall J. W. Ⅲ (2007). New Handbook of Auditory Evoked Responses (pp. 171-211). Boston, MA: Allyn and Bacon.
Hyde, M. L., Stephens, S. D. G., & Thornton, A. R. D. (1976). Stimulus repetition rate and early brainstem responses. British Journal of Audiology, 10, 41-50.
Jang, J. W., Lee, G. S., Song, D. G., Kim, S. H., Kim, W. D., & Lee, S.G. (2007). Usefulness of auditory brainstem response as early predictor of kernicterus in early breast-feeding jauudice. Korean Journal of Pediatrics, 50(9), 848-854.
Jang, K-H. (2014). Effect of gender and stimulus rates o auditory evoked responses. Master thesis. Catholic University of Daegu. Gyeongsan.
Jiang, Z. D., Wu, Y. Y., & Zhang, L. (1991). Amplitude change with click rate in human brainstem auditory-evoked response. Audiology, 30, 173-182.
Jo, Y. H. (2013). Auditory brainstem response in newborns with hyperbilirubinemia. Master thesis. Hanyang University. Seoul.
Jung, W. H. (2007). Automated algorithm of automated auditory brainstem response for neonates. Master thesis. Yonsei University. Seoul.
Kim, H. J. & Lim, H. J. (1992). The effect of the test parameters upon the brainstem evoked response audiometry in normal persons. Korean Journal of Otorhinolaryngology-Head and Neck Surgery, 35(1), 34-42.
Kim, H. M., Go, T.S., Kim, G. S., Lee, M. S., & Kim, K. H. (1995). Auditory brainstem responses in premature and fullterm infants. Korean Journal of Pediatrics, 38(8), 1036-1045.
Kim, J. H. & Kim, J. S. (2002). Clinical application of bone conduction auditory brainstem responses to tone burst. Korean Journal of Communication Disorders, 7(3), 160-178.
Kim, J. S., Lee, M. S., Lee, J. H., Park, M. S., Lee, J. H., Kim, M. S., et al. (1999). Brainstem evoked potentials to tone burst in normally hearing adults. Korean Journal of Audiology, 3(1), 56-62.
Kim. S. C. (2007). Development of template for automatic interpretation of the auditory brainstem response in the infant. Ph.D. dissertation. Yonsei University. Seoul.
Klein, A. J., Alvaqrez, E. D., & Cowburn, C. A. (1992). The effects of stimulus rate on detectability of the auditory brainstem response in infants. Ear and Hearing, 13(6), 401-405.
Krizman, J., Skoe, E., & Kraus. N. (2010). Stimulus rate and subcortical auditory processing of speech. Audiology and Neurootology, 15(5), 332-342.
Lasky, R. E. (1997). Rate and adaptation effects on the auditory evoked brainstem response in human newborns and adults. Hearing Research, 111(1-2), 165-176.
Lee, M. S. (2000). Brainstem evoked potentials to tone burst in normally hearing adults. Master thesis. Hallym University. Chuncheon.
Lee, O. Y., Nam, B. H., Park, Y. H., Lee, S. H., & Park, C. I. (2002). Effect of Salicylate on DPOAEs and ABRs in guinea pigs. Korean Journal of Otorhinolaryngology-Head and Neck Surgery, 45(7). 646-650.
Lee, K. S. & Baek, M. K. (1983). Normal ranges of auditory brainstem response in Korean. Korean Journal of Otorhinolaryngology-Head and Neck Surgery, 26(2), 217-225.
Leung, S-M., Slaven, A., Thornton, A. R. D., & Brickley, G. J. (1998). The use of high stimulus rate auditory brainstem response in the estimation of hearing threshold. Hearing Research, 123(1-2), 201-205.
Lightfoot, G., Sininger, Y., Burkard, R., & Lodwig, A. (2007). Stimulus repetition rate and the reference levels for clicks and short tone bursts: A warning to audiologists, researchers, calibration laboratories, and equipment manufacturers. American Journal of Audiology, 16(2), 94-95.
Musiek, F. E., Borenstein, S. P., Hall Ⅲ, J. W., & Schwaber, M. K. (1994). Auditory brainstem response: Neurodiagnostic and intraoperative applications (pp. 351-374). In: J. Katz (4th ed.). Handbook of Clinical Audiology. Baltimore, MD: Williams & Wilkins.
Palludetti, G., Maurizi, M., & Ottaviami, F. (1983). Effects of stimulus repetition rate on the auditory brainstem response (ABR). American Journal of Otology, 4(3), 226-234.
Park, S. Y., Sin, J. W., & Choi, J. H. (2010). Diagnostic value of the ABR latency in the acoustic neuroma. Clinical and Experimental Otorhinolaryngology, 21(1). 46-49.
Parthasarathy, T. K., Borgsmiller, P., & Cohlan, B. (1998). Effects of repetition rate, phase, and frequency on the auditory brainstem response in neonates and adults. Journal of American Academy of Audiology, 9, 134-140.
Picton, T. W., Stapells, D. R., & Campbell, K. B. (1981). Auditory evoked potentials from the human cochlea and brainstem. The Journal of Otolaryngology. Suppl., 10, 1-41.
Ponton, C. W., Moore, J. K., & Eggermont, J. J. (1996). Auditory brainstem response generation by parallel pathways: Differential maturation of axonal conduction time and synaptic transmission. Ear and Hearing, 17, 402-410.
Rhee, C-K., He, P., Jung, J. Y., Ahn, J-C., Chung, P-S., & Suh, M-W. (2012). Effect of low-level laser therapy on cochlear hair cell recovery after gentamicin-induced ototoxicity. Lasers in Medical Science, 27, 987-992.
Robinson, K. & Rudge, P. (1977). Abnormalities of the auditory evoked potentials in patients with multiple sclerosis. Brain, 100, 19-40.
Santos, M. A., Munhoz, M. S., Peixoto, M. A., & Silva, C. S. (2004). High click stimulus repetition rate in the auditory evoked potentials in multiple sclerosis patients with normal MRI. Does it improve diagnosis? Revue de laryngologie-otologierhinologie (Bord), 125(3), 151-155.
Schwartz, D. & Morris, M. (1991). Strategies for optimizing the detection of neuropathology from the auditory brainstem response. In: J. T. Jacobson, & J. L. Northern (Ed.). Diagnostic Audiology. Austin, TX: Pro-Ed.
Schwartz, D. M., Morris, M. D., & Jacobson, J. T. (1994). The normal auditory brainstem response and its variants (pp. 123-153). In: J. T. Jacobson JT (Ed.). Principles and applications in auditory evoked potentials. Boston, MA: Allyn and Bacon.
Seo, J-H., Jeon, E-J., Park, Y-S., Kim, J. E., Kim, D-H., Nam, I-C., et al. (2012). Correlation of threshold of click-evoked auditory brainstem response with pure-tone threshold average in various formulas. Korean Journal of Otorhinolaryngology-Head and Neck Surgery, 55(12). 764-770.
Sininger, Y. S. & Hyde, M. L. (2009). Auditory brainstem response in audiometric threshold prediction. In: J. Katz, L. Medwetsky, R. Burkard, & L. Hood (6th ed.). Handbook of Clinical Audiology (pp. 293-321). Baltimore, MD: Lippincott Williams & Wilkins.
Suzuki, T., Kobayashi, K., & Takagi, N. (1986). Effects of stimulus repetition rate on slow and fast components of auditory brain-stem responses. Electroencephalography and Clinical Neurophysiology, 65(2), 150-156.
Watson, D. (1996). The effects of cochlear hearing loss, age and sex on the auditory brainstem response. Audiology, 35(5), 246-58.
Woo, H. Y., Kim, J. T., & Kwon, D. H. (1995). Auditory brainstem evoked response in normal adults. Inje Medical Journal, 16(2), 231-239.
Yagi, T. & Kaga, K. (1979). The effect of the click repetition rate on the latency of the auditory evoked brainstem response and its clinical use for a neurological diagnosis. Archives of Otorhinolaryngology, 222(2), 91-97.

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