Simultaneous multiple stimulation of the auditory steady-state response (ASSR)

Authors

  • Claus Elberling Oticon A/S, ‘Eriksholm’, DK-3070 Snekkersten, Denmark
  • Mario Cebulla ENT Clinic, Julius Maximilians-University, D-97080 Würzburg, Germany
  • Ekkehard Stürzebecher WDH Denmark, c/o D-15370 Petershagen, Germany

Abstract

The present study evaluates some characteristics of the ASSR related to the use of multiple, simultaneous, band-limited chirp-stimuli. In a diagnostic study four one-octave-band chirp-stimuli (500, 1,000, 2,000 and 4,000 Hz) were used to measure the ASSR-threshold in 10 normal-hearing adults. The four stimuli were presented simultaneously to both ears (eight stimuli) with rates at about 90/s. The ASSRs were detected automatically (error rate 5%), and the thresholds evaluated with a resolution of 5 dB. The ASSR thresholds were compared to the audiometric thresholds for all 20 ears and the deviations evaluated by the group means and standard deviations. These data compare favorably well with similar data reported by others. In a screening study a low-frequency chirp, (Lo: 180 – 1,500 Hz) and a high-frequency chirp (Hi: 1,500 – 8,000 Hz), was used to record the ASSR in 72 newborns. The two stimuli were presented both sequentially and simultaneously using a rate at about 90/s and a level of 35 dBnHL. The ASSRs were detected automatically (error rate 0.1%), and evaluated by the detection time. The results from both studies demonstrate that simultaneous application of multiple, frequency-specific stimuli can effectively be applied without sacrificing response detection accuracy. However, in the screening study stimulus interactions were observed.

References

Cebulla, M., Stürzebecher, E., and Elberling, C. (2006). “Objective detection of auditory steady-state responses: Comparison of one-sample and q-sample tests,” J. Am. Acad. Audiol. 17, 93-103.

Dau, T., Wagner, O., Mellert, V., and Kollmeier, B. (2000). “Auditory brainstem responses with optimized chirp signals compensating basilar membrane dispersion,” J. Acoust. Soc. Am. 107(3), 1530-1540.

D’haenens, W., Dhooge, I., De Vel, E., Maes, L., Bockstael, A., and Vinck, B. M. (2007). “Auditory steady-state responses to MM and exponential envelope AM2/ FM stimuli in normal-hearing adults,” Int. J. Audiol. 46, 399-406.

Dimitrijevic, A., John, M. S., van Roon, P. S., Purcell, D. W., Adamonis, J., Ostroff, J., Nedzelski, J. M., and Picton, TW. (2002). “Estimating the audiogram using multiple auditory steady-state responses,” J. Am. Acad. Audiol. 13, 205-224.

Don, M., Kwong, B., and Tanaka, C. (2005). “A diagnostic test for Meniere’s disease and cochlear hydrops: Impaired high-pass noise masking of auditory brainstem response,” Otol. Neurotol. 26, 711-722.

Elberling, C., Don, M., Cebulla, M., and Stürzebecher, E. (2007). “Auditory steady-state responses to chirp stimuli based on cochlear traveling wave delay,” J. Acoust. Soc. Am. – in press.

Fobel, O., and Dau, T. (2004). “Searching for the optimal stimulus eliciting auditory brainstem responses in humans,” J. Acoust. Soc. Am. 116(4), 2213-2222.

John, M. S., Purcell, D. W., Dimitrijevic, A., and Picton, T.W. (2002). “Advantages and caveats when recording steady-state responses to multiple simultaneous stimuli,” Am. Acad. Audiol. 13, 246-259.

John, M. S., Dimitrijevic, A., van Roon, P., and Picton, T.W. (2001). “Multiple auditory steady-state responses to AM and FM stimuli,” Audiol. Neurotol. 6, 12-27.

Kaf, W. A., Durrant, J. D., Sabo, D. L., Boston, J. R., Taubman, L. B., and Kovacyk, K. (2006). “Validity and accuracy of electric response audiometry using the auditory steady-state response: Evaluation in an empirical design,” Int. J. Audiol. 45, 211-223.

Lins, O. G., Picton, T. W., Boucher, B. L., Durieux-Smith, A., Champagne, S. C., Moran, L. M., Perez-Abalo, M. C., Martin, V., and Savio, G. (1996). “Frequency- specific audiometry using steady-state responses,” Ear Hear. 17, 81-96.

Picton, T. W., John, M. S., Dimitrijevic, A., and Purcell, D. (2003). “Human auditory steady-state responses,” Int. J. Audiol. 42, 177-219.

Rance, G., Roper, R., Symons, L., Moody, L-J., Poulis, C., Dourlay, M., and Kelly, T. (2005). “Hearing threshold estimation in infants using auditory steady-state responses,” J. Am. Acad. Audiol. 16, 291-300.

Stürzebecher, E., Cebulla, M., Elberling, C., and Berger, T. (2006). “New ef cient stimuli for evoking frequency-specific auditory steady-state responses,” J. Am. Acad. Audiol. 17, 448-461.

Stürzebecher, E., Cebulla, M., and Elberling, C. (2005). “Automated auditory response detection: Statistical problems with repeated testing,” Int. J. Audiol. 44, 110-117.

Stürzebecher, E., Cebulla, M., and Neumann, K. (2003). “Click-evoked ABR at high stimulus repetition rates for neonatal hearing screening,” Int. J. Audiol. 42, 59-70.

Werff, K. R. Vander, and Brown, C. J. (2005). “Effect of audiometric configuration on threshold and suprathreshold auditory steady-state responses,” Ear Hear. 26, 310-326.

Additional Files

Published

2007-12-15

How to Cite

Elberling, C., Cebulla, M., & Stürzebecher, E. (2007). Simultaneous multiple stimulation of the auditory steady-state response (ASSR). Proceedings of the International Symposium on Auditory and Audiological Research, 1, 201–210. Retrieved from https://proceedings.isaar.eu/index.php/isaarproc/article/view/2007-19

Issue

Section

2007/2. Physiological correlates of auditory functions