Before 2002

de Boer, E., and Nuttall, A. L. (2001).

“Power gain of the ‘Cochlear Amplifier.”

In: Physiological and psychological bases of auditory function, edited by D.J. Breebaart, A.J.M. Houtsma, A. Kohlrausch, V.F. Prijs, and R. Schoonhoven (Shaker, Maastricht), pp. 1-7. Comments pp. 7-8.

de Boer, E. (2001).

“The short-wave model and waves in two directions.”

J. Acoust. Soc. Am. 109, 291-293.

de Boer, E. and Nuttall, A. L. (2000).

“The mechanical waveform of the basilar membrane. III. Intensity effects.”

J. Acoust. Soc. Am. 107, 1497-1507.

de Boer, E., and Nuttall, A. L. (2000).

“The mechanical waveform of the basilar membrane. II. From data to models - and back.”

J. Acoust. Soc. Am. 107, 1487-1496.

de Boer, E., and Nuttall, A.L. (1999).

“The "inverse problem" solved for a three-dimensional model of the cochlea. III. Brushing up the solution method.”

J. Acoust. Soc. Am. 105, 3410-3420.

de Boer, E. (1998).

“A method for forward and inverse solutions of a 3-dimensional model of the cochlea.”

J. Acoust. Soc. Am. 103, 3725-3728.

de Boer, E., and Nuttall, A. L. (1997).

“The mechanical waveform of the basilar membrane. I. Frequency modulations ("glides") in impulse responses and cross-correlation functions,”

J. Acoust. Soc. Am. 101, 3583-3592.

de Boer, E., and Nuttall, A. L. (1997).

“On cochlear cross-correlation functions: connecting nonlinearity and 'activity',”

in Diversity in Auditory Mechanisms, edited by E. R. Lewis, G. R. Long, R. F. Lyon, P. M. Narins, C. R. Steele, and E. Hecht-Poinar (World Scientific, Singapore), pp. 291-297.

de Boer, E. (1997).

“Cochlear models and minimum phase.”

J. Acoust. Soc. Am. 102, 3810-3813.

de Boer, E. (1997).

“Classical and non-classical models of the cochlea.”

J. Acoust. Soc. Am. 101, 2148-2150.

de Boer, E. (1996).
“Mechanics of the cochlea: modeling efforts,”
in The cochlea, edited by P. Dallos, A. N. Popper, and R. R. Fay (Springer-Verlag, New York), pp. 258-317.

de Boer, E. (1997).
“Connecting frequency selectivity and nonlinearity for models of the cochlea,”
Audit. Neurosci. 3, 377-388.

de Boer, E. (1995).
“On equivalence of locally-active models of the cochlea.”
J. Acoust. Soc. Am. 98, 1400-1409.

de Boer, E. (1995).
“The "inverse problem" solved for a three-dimensional model of the cochlea. II. Application to experimental data sets,”
J. Acoust. Soc. Am. 98, 904-910.

de Boer, E. (1995).
“The "inverse problem" solved for a three-dimensional model of the cochlea. I. Analysis,”
J. Acoust. Soc. Am. 98, 896-903.

Boymans M, Dreschler WA. (Sep-Oct 2000).
“Field trials using a digital hearing aid with active noise reduction and dual-microphone directionality.”
Audiology, 39(5), 260-8.

Boymans M, Dreschler WA, Schoneveld P, Verschuure H. (Mar-Apr 1999)
“Clinical evaluation of a full-digital in-the-ear hearing instrument.”
Audiology, 38(2), 99-108.

de Bruijn AJ, Tange RA, Dreschler WA. (Jan 2001).
“Efficacy of evaluation of audiometric results after stapes surgery in otosclerosis. I. The effects of using different audiologic parameters and criteria on success rates.”
Otolaryngol Head Neck Surg.,124(1):76-83.

de Bruijn AJ, Tange RA, Dreschler WA. (Jan. 2001).

“Efficacy of evaluation of audiometric results after stapes surgery in otosclerosis. II. A method for reporting results from individual cases.
Otolaryngol Head Neck Surg.,124(1):84-9.”

de Bruijn AJ, Tange RA, Dreschler WA. (Mar-Apr 1999).
“Evaluation of second-ear stapedotomy with the Glasgow benefit plot.”
ORL J Otorhinolaryngol Relat Spec., 61(2):92-7.

de Bruijn AJ, Tange RA, Dreschler WA. (Sep. 1999).
“Comparison of stapes prostheses: a retrospective analysis of individual audiometric results obtained after stapedotomy by implantation of a gold and a teflon piston.”
Am J Otol., 20(5):573-80.

Dreschler W.A.; Boymans M.; Goverts S.T.; Kramer S. (2001)

"The benefit of binaural hearing aid fittings: results of a retrospective study."

Clinical Otolaryngology & Allied Sciences, Volume 26, Number 4, August, pp. 346-346(0)

Dreschler WA, Kollmeier, B., Verschuure H (2001).
“Project SPACE: Signal processing for auditory communication in noisy environments, an overview.”
Z. Audiologie., supplementum IV: 121-26.

Dreschler WA, Verschuure H, Ludvigsen C, Westermann S. (May-Jun 2001).
“ICRA noises: artificial noise signals with speech-like spectral and temporal properties for hearing instrument assessment. International Collegium for Rehabilitative Audiology.”
Audiology, 40(3):148-57.

Dreschler WA, Boymans M, Verschuure J (1999)

"Fitting and evaluation of advanced signal processing in hearing aids."

Z. Audiology 38/S2, 186-190.

Dreschler WA, Moore BCJ, Kollmeier B, Verschuure H, (Sep. 1995).
“Digital signal processing in hearing aids.”
NAG-journal., 128: 31-41.

Dreschler WA, Boymans M (1994)

"Clinical evaluation on the advantage of binaural hearing aid fittings."

Audiological Acoustics 33/5, 12-23.

Franck BA, van Kreveld-Bos CS, Dreschler WA, Verschuure H. (Sep. 1999).
“Evaluation of spectral enhancement in hearing aids, combined with phonemic compression.”
J Acoust Soc Am., 106(3 Pt 1):1452-64.

Goedegebure A, Hulshof M, Maas RJ, Dreschler WA, Verschuure H. (Jan-Feb 2001).
“Effects of single-channel phonemic compression schemes on the understanding of speech by hearing-impaired listeners.”
Audiology, 40(1):10-25.

Kanis, L.J. and de Boer, E. (1997).
“Frequency dependence of acoustic distortion products in a locally active model of the cochlea.”
J. Acoust. Soc. Am. 101, 1527-1531.

Kanis, L.J. and de Boer, E. (1996).
“Comparing frequency-domain with time-domain solutions for a locally-active nonlinear model of the cochlea.”
J. Acoust. Soc. Am. 100, 2543-2546.

Kanis, L.J. and de Boer, E. (1993).
Self-suppression in a locally active nonlinear model of the cochlea: A quasi-linear approach.
J. Acoust. Soc. Am. 94, 3199-3206.

Koopman J, Franck BA, Dreschler WA. (Mar-Apr 2001).
“Toward a representative set of "real-life" noises.”
Audiology., 40(2):78-91.

Nuttall, A.L., Zheng, J., Ren, T., and de Boer, E. (2001).

"Electrically evoked otoacoustic emissions from apical and basal perilymphatic electrode positions in the guinea pig cochlea"

Hearing Res. 152: 77-89.

Nuttall, A.L., Ren,T., and de Boer, E. (1997).

“The origin of otoacoustic emissions from electrical stimulation of the cochlea.”

In Diversity in Auditory Mechanisms, E. R. Lewis, G. R. Long, R. F. Lyon, P. M. Narins, C. R. Steele, and E. Hecht-Poinar (World Scientific, Singapore), pp. 256-262.

Nuttall, A. L., and Dolan, D. F. (1996).
“Steady-state sinusoidal velocity responses of the basilar membrane in guinea pig,”
J. Acoust. Soc. Am. 99, 1556-1565.

Tan J, Tange RA, Dreschler WA, vd Kleij A, Tromp EC. (1999).
“Long-term effect of hyperbaric oxygenation treatment on chronic distressing tinnitus.”
Scand Audiol., 28(2):91-6.

Wubbels R.J., de Jong H.A. (Jul. 2001).
“The vestibulo-ocular reflex of hypergravity rats.”
J Gravit Physiol., 8(1):P113-4.

Wubbels R.J., de Jong H., Sondag E. (Jul. 2001).
“The effects of hypergravity on vestibular epithelia and behaviour of the rat.”
J Gravit Physiol., 8(1):P105-8.


Home Onderwijs Wetenschap Research (EN)
General Otology Prevention of hearing loss Auditory profile Rehabilitation Hearing at work Publications Theses Papers 2009 2008 2007 2006 2005 2004 2003 2002 Before 2002 Presentations	Before 2002 de Boer, E., and Nuttall, A. L. (2001). “Power gain of the ‘Cochlear Amplifier.” In: Physiological and psychological bases of auditory function, edited by D.J. Breebaart, A.J.M. Houtsma, A. Kohlrausch, V.F. Prijs, and R. Schoonhoven (Shaker, Maastricht), pp. 1-7. Comments pp. 7-8. de Boer, E. (2001). “The short-wave model and waves in two directions.” J. Acoust. Soc. Am. 109, 291-293. de Boer, E. and Nuttall, A. L. (2000). “The mechanical waveform of the basilar membrane. III. Intensity effects.” J. Acoust. Soc. Am. 107, 1497-1507. de Boer, E., and Nuttall, A. L. (2000). “The mechanical waveform of the basilar membrane. II. From data to models - and back.” J. Acoust. Soc. Am. 107, 1487-1496. de Boer, E., and Nuttall, A.L. (1999). “The "inverse problem" solved for a three-dimensional model of the cochlea. III. Brushing up the solution method.” J. Acoust. Soc. Am. 105, 3410-3420. de Boer, E. (1998). “A method for forward and inverse solutions of a 3-dimensional model of the cochlea.” J. Acoust. Soc. Am. 103, 3725-3728. de Boer, E., and Nuttall, A. L. (1997). “The mechanical waveform of the basilar membrane. I. Frequency modulations ("glides") in impulse responses and cross-correlation functions,” J. Acoust. Soc. Am. 101, 3583-3592. de Boer, E., and Nuttall, A. L. (1997). “On cochlear cross-correlation functions: connecting nonlinearity and 'activity',” in Diversity in Auditory Mechanisms, edited by E. R. Lewis, G. R. Long, R. F. Lyon, P. M. Narins, C. R. Steele, and E. Hecht-Poinar (World Scientific, Singapore), pp. 291-297. de Boer, E. (1997). “Cochlear models and minimum phase.” J. Acoust. Soc. Am. 102, 3810-3813. de Boer, E. (1997). “Classical and non-classical models of the cochlea.” J. Acoust. Soc. Am. 101, 2148-2150. de Boer, E. (1996). “Mechanics of the cochlea: modeling efforts,” in The cochlea, edited by P. Dallos, A. N. Popper, and R. R. Fay (Springer-Verlag, New York), pp. 258-317. de Boer, E. (1997). “Connecting frequency selectivity and nonlinearity for models of the cochlea,” Audit. Neurosci. 3, 377-388. de Boer, E. (1995). “On equivalence of locally-active models of the cochlea.” J. Acoust. Soc. Am. 98, 1400-1409. de Boer, E. (1995). “The "inverse problem" solved for a three-dimensional model of the cochlea. II. Application to experimental data sets,” J. Acoust. Soc. Am. 98, 904-910. de Boer, E. (1995). “The "inverse problem" solved for a three-dimensional model of the cochlea. I. Analysis,” J. Acoust. Soc. Am. 98, 896-903. Boymans M, Dreschler WA. (Sep-Oct 2000). “Field trials using a digital hearing aid with active noise reduction and dual-microphone directionality.” Audiology, 39(5), 260-8. Boymans M, Dreschler WA, Schoneveld P, Verschuure H. (Mar-Apr 1999) “Clinical evaluation of a full-digital in-the-ear hearing instrument.” Audiology, 38(2), 99-108. de Bruijn AJ, Tange RA, Dreschler WA. (Jan 2001). “Efficacy of evaluation of audiometric results after stapes surgery in otosclerosis. I. The effects of using different audiologic parameters and criteria on success rates.” Otolaryngol Head Neck Surg.,124(1):76-83. de Bruijn AJ, Tange RA, Dreschler WA. (Jan. 2001). “Efficacy of evaluation of audiometric results after stapes surgery in otosclerosis. II. A method for reporting results from individual cases. Otolaryngol Head Neck Surg.,124(1):84-9.” de Bruijn AJ, Tange RA, Dreschler WA. (Mar-Apr 1999). “Evaluation of second-ear stapedotomy with the Glasgow benefit plot.” ORL J Otorhinolaryngol Relat Spec., 61(2):92-7. de Bruijn AJ, Tange RA, Dreschler WA. (Sep. 1999). “Comparison of stapes prostheses: a retrospective analysis of individual audiometric results obtained after stapedotomy by implantation of a gold and a teflon piston.” Am J Otol., 20(5):573-80. Dreschler W.A.; Boymans M.; Goverts S.T.; Kramer S. (2001) "The benefit of binaural hearing aid fittings: results of a retrospective study." Clinical Otolaryngology & Allied Sciences, Volume 26, Number 4, August, pp. 346-346(0) Dreschler WA, Kollmeier, B., Verschuure H (2001). “Project SPACE: Signal processing for auditory communication in noisy environments, an overview.” Z. Audiologie., supplementum IV: 121-26. Dreschler WA, Verschuure H, Ludvigsen C, Westermann S. (May-Jun 2001). “ICRA noises: artificial noise signals with speech-like spectral and temporal properties for hearing instrument assessment. International Collegium for Rehabilitative Audiology.” Audiology, 40(3):148-57. Dreschler WA, Boymans M, Verschuure J (1999) "Fitting and evaluation of advanced signal processing in hearing aids." Z. Audiology 38/S2, 186-190. Dreschler WA, Moore BCJ, Kollmeier B, Verschuure H, (Sep. 1995). “Digital signal processing in hearing aids.” NAG-journal., 128: 31-41. Dreschler WA, Boymans M (1994) "Clinical evaluation on the advantage of binaural hearing aid fittings." Audiological Acoustics 33/5, 12-23. Franck BA, van Kreveld-Bos CS, Dreschler WA, Verschuure H. (Sep. 1999). “Evaluation of spectral enhancement in hearing aids, combined with phonemic compression.” J Acoust Soc Am., 106(3 Pt 1):1452-64. Goedegebure A, Hulshof M, Maas RJ, Dreschler WA, Verschuure H. (Jan-Feb 2001). “Effects of single-channel phonemic compression schemes on the understanding of speech by hearing-impaired listeners.” Audiology, 40(1):10-25. Kanis, L.J. and de Boer, E. (1997). “Frequency dependence of acoustic distortion products in a locally active model of the cochlea.” J. Acoust. Soc. Am. 101, 1527-1531. Kanis, L.J. and de Boer, E. (1996). “Comparing frequency-domain with time-domain solutions for a locally-active nonlinear model of the cochlea.” J. Acoust. Soc. Am. 100, 2543-2546. Kanis, L.J. and de Boer, E. (1993). Self-suppression in a locally active nonlinear model of the cochlea: A quasi-linear approach. J. Acoust. Soc. Am. 94, 3199-3206. Koopman J, Franck BA, Dreschler WA. (Mar-Apr 2001). “Toward a representative set of "real-life" noises.” Audiology., 40(2):78-91. Nuttall, A.L., Zheng, J., Ren, T., and de Boer, E. (2001). "Electrically evoked otoacoustic emissions from apical and basal perilymphatic electrode positions in the guinea pig cochlea" Hearing Res. 152: 77-89. Nuttall, A.L., Ren,T., and de Boer, E. (1997). “The origin of otoacoustic emissions from electrical stimulation of the cochlea.” In Diversity in Auditory Mechanisms, E. R. Lewis, G. R. Long, R. F. Lyon, P. M. Narins, C. R. Steele, and E. Hecht-Poinar (World Scientific, Singapore), pp. 256-262. Nuttall, A. L., and Dolan, D. F. (1996). “Steady-state sinusoidal velocity responses of the basilar membrane in guinea pig,” J. Acoust. Soc. Am. 99, 1556-1565. Tan J, Tange RA, Dreschler WA, vd Kleij A, Tromp EC. (1999). “Long-term effect of hyperbaric oxygenation treatment on chronic distressing tinnitus.” Scand Audiol., 28(2):91-6. Wubbels R.J., de Jong H.A. (Jul. 2001). “The vestibulo-ocular reflex of hypergravity rats.” J Gravit Physiol., 8(1):P113-4. Wubbels R.J., de Jong H., Sondag E. (Jul. 2001). “The effects of hypergravity on vestibular epithelia and behaviour of the rat.” J Gravit Physiol., 8(1):P105-8.