References
- Zwicker E. A model describing non-linearities in hearing by active processes with saturation at 40 dB. Biol Cybern 1979; 35: 243–50
- Zenner H P, Zimmermann U, Schmitt U. Reversible contraction of isolated mammalian cochlear hair cells. Hear Res 1985; 18: 127–33
- Brownell W E, Bader C R, Bertrand D, Ribaupierre Y. Evoked mechanical responses of isolated cochlear outer hair cells. Science 1985; 227: 194–6
- Zenner H P. Motile responses in outer hair cells. Hear Res 1986; 22: 83–90
- Zenner H P, Zimmermann U, Schmitt U. High- and low-frequency motility in outer hair cells. Arch Otorhinolaryngol 1986; 243: 343–4
- Gitter A H, Zenner H P, Fromter E. Membrane potential and ion channels in isolated outer hair cells of the guinea pig cochlea. ORL J Otorhinolaryngol Relat Spec 1986; 48: 68–75
- Dallos P, Santos-Sacci J, Flock A. Intracellular recordings from cochlea hair cells. Science 1982; 218: 582–1
- Russell I J, Cody H R, Richardson G P. The responses of inner and outer hair cells in the basal turn of the guinea pig cochlea and the mouse cochlea grown in vitro. Hear Res 1986; 22: 199–216
- Zenner H P, Gitter A H, Zimmermann U, Schmitt U, Fromter E. Die isolierte lebende Haarzelle Laryngol Rhinol Otol 1985; 64: 642–8
- Klinke R. Die Verarbeitung von Schallreizen im Innenohr. HNO 1987; 35: 139–44
- Spoendlin H. Innervation densities of the cochlea. Acta Otolaryngol (Stockh) 1972; 73: 235
- Flock A, Cheung H. Actin filaments in sensory hairs of inner ear receptor cells. Arch Otorhinolaryngol 1980; 230: 339–43
- Zenner H P. Cytoskeletal and muscle-like elements in cochlear hair cells. Arch Otorhinolaryngol 1980; 230: 82–92
- Drenckhahn D, Kellner J, Mannherz H G, Gröschel-Steward U, Kendrick-Jones J, Scholey J. Absence of myosin in stereocilia of hair cells. Nature 1982; 300: 531–2
- Flock Å R, Flock B, Ulfendahl M. Mechanismus of movement in outer hair cells and a possible structural basis. Arch Otorhinolaryngol 1986; 243: 83–90
- Khanna S M, Leonhard D GB. Laser interferometric measurements of basilar membrane vibrations in cats. Science 1982; 215: 305–06
- LePage E W, Johnstone M B. Non-linear mechanical behaviour of the basilar membrane in the basal turn of the guinea pig cochlea. Hear Res 1980; 2: 183–9
- Sellick P M, Patuzzi R, Johnstone B M. Measurement of basilar membrane motion in the guinea pig using the MoBbauer technique. J Acoust Soc Am 1982; 131–41
- Kim D O. Active and nonliear cochlear biomechanics and the role of outer-hair-cell subsystems in the mammalian auditory system. Hear Res 1986; 22: 105–14
- Zenner H P, Gitter A H. Active motility and reverse transduction in outer hair cells, L P Löbe, P Lotz. Cochlea Research. Halle: University press. 1987, [in press].
- Zenner H P. K+-induced depolarization and contraction of outer hair cells. Direct evidence for new pathophysiological steps in Meniere's disease. Arch Otorhinolaryngol 1986; 243: 108–11
- Zenner H P, Schacht J. Aminoglycoside-induced hearing loss binding to PIP2 in outer hair cell membranes-membranes and molecular pathomechanism. Germ HNO 1986; 34: 417–23
- Schacht J, Zenner H P. The phosphoinositide cascade in isolated outer hair cells: possible role as second messenger for motile responses. Hear Res 1986; 22: 94
- Ashmore J F, Meech R W. Ionic basis of membrane potential in outer hair cells of guinea pig cochlea. Nature 1986; 322: 368–71