Sound induced displacement response of the guinea pig hearing organ and its relation to the cochlear potentials
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Cited by (33)
Dynamic changes in hair cell stereocilia and cochlear transduction after noise exposure
2011, Biochemical and Biophysical Research CommunicationsCitation Excerpt :This self repair of stereocilia may be an attribute of the continuously renewed cross-linked actin filaments that maintain the stereocilia in working order for a lifetime [15,22] and the regeneration of tip-to-side links, as well as reconnection to the tectorial membrane, which are the structures that control the opening of the transduction ion channels [10,17]. This recovery in morphology corresponded with the functional observations on the CMs, which are generated predominantly from the OHCs as a consequence of the transduction mechanism [23]. Reduction in the CM amplitude was parallel across the intensity range.
Aging outer hair cells (OHCs) in the Fischer 344 rat cochlea: Function and morphology
2009, Hearing ResearchAuditory System
2003, The Human Nervous System: Second EditionHydrops in the cochlea can be induced by sound as well as by static pressure
2000, Hearing ResearchCitation Excerpt :The endocochlear potential (EP) in the fourth turn of the living guinea pig is about +50 mV (von Békésy, 1960; Dallos et al., 1982). In the isolated temporal bone it is lower, 20–50 mV, in part because the preparation is maintained at room temperature which reduces the electric pump activity (Brundin et al., 1992). This has been seen also by other groups (Morioka and Reuter, 1995).
Amplification in the apical turn of the cochlea with negative feedback
2000, Hearing Research