References
- Kemp D K., Ryan S, Bray P. A guide to the effective use of otoacoustic emission. Ear Hear 1990; 11: 93–105
- Norton S J., Widen J E. Evoked otoacoustic emissions in normal hearing infants and children: emerging data and issues. Ear Hear 1990; 11: 121–7
- Bonfils P, Uziel A, Narcy P. The properties of spontaneous and evoked acoustic emissions in neonates and children: a preliminary report. Arch Otorhinolarynol 1989; 246: 249–51
- Bargones J Y., Burns E W. Suppression tuning curves for spontaneous otoacoustic emissions in infants and adults. J Acoust SOC Am 1988; 83: 1809–16
- Wright A, Davis A, Bredberg G, et al. Hair cell distributions in the normal human cochlea. A report of a European Working Group. Acta Otolaryngol (Stockh) 1987, Suppl 436: 15–24
- Guinan J J. Effect of efferent neural activity on cochlear mechanics. Scand Audiol 1986, Suppl 25: 53–62
- Pujol R, Carlier E, Lenoir M. Ontogenetic approach to inner and outer hair cell function. Hear Res 1980; 2: 423–30
- Eggermont J J., Ponton C W., Coupland S G., Winkelaar R. Frequency dependent maturation of the cochlea and brainstem evoked potentials. Acta Otolaryngol (Stockh) 1991; 111: 220–4
- Mountain D C. Changes in endolymphatic potential and crossed olivococlear bundle stimulation alter cochlear mechanics. Science 1980; 210: 71–2
- Siegel J H., Kim D O. Efferent neural control of cochlear mechanics? Olivocochlear bundle stimulation affect cochlear biomechanical nonlinearity. Hear Res 1982; 6: 171–82
- Puel J L., Rebillard G. 2F1–F2: evidence that the medial efferent system is involved. J Acoustic Soc Am 1990; 87: 1630–5
- Collet L, Kemp D T., Veuillet E, Duclaux R, Moulin A, Morgon A. Effect of contralateral auditory stimuli on active cochlear micromechanical properties in human subjects. Hear Res 1990; 43: 251–62
- Morlet T, Collet L, Salle B, Morgon A. Functional maturation of cochlear active mechanisms and of the medial olivocochlear system in humans. Acta Otolaryngol (Stockh) 1993; 113: 271–7
- Ryan S, Kemp D T., Hinchcliffe R. The influence of contralateral acoustic stimulation on click evoked otoacoustic emissions in humans. Br J Audiol 1991; 25: 391–7
- Sprague B H., Wiley T I., Goldstein R. Tympanometric and acoustic reflex studies in neonates. J Speech Hear Res 1985; 25: 391–7
- Veuillet E, Collet L, Duclaux R. Effect of contralateral acoustic stimulation on active cochlear micro‐mechanical properties in human subjects: dependence on stimulus variables. J Neurophysiol 1991; 65: 724–35