1999
DOI: 10.1073/pnas.96.8.4420
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Limiting dynamics of high-frequency electromechanical transduction of outer hair cells

Abstract: High-frequency resolution is one of the salient features of peripheral sound processing in the mammalian cochlea. The sensitivity originates in the active amplification of the travelling wave on the basilar membrane by the outer hair cells (OHCs), where electrically induced mechanical action of the OHC on a cycle-by-cycle basis is believed to be the crucial component. However, it is still unclear if this electromechanical action is sufficiently fast and can produce enough force to enhance mechanical tuning up … Show more

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Cited by 311 publications
(331 citation statements)
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“…Therefore, an increasing phase lead for the electric potentials would have to be compensated by an equally large phase change of outer hair cell motility to generate the BM tuning curves that we measured. Such frequency-dependent phase change was not found in studies of outer hair cell motility in vitro (Frank et al, 1999). Conceivably, passive mechanical elements within the organ could introduce such a phase lag.…”
Section: The Dallos-evans Theorymentioning
confidence: 84%
See 1 more Smart Citation
“…Therefore, an increasing phase lead for the electric potentials would have to be compensated by an equally large phase change of outer hair cell motility to generate the BM tuning curves that we measured. Such frequency-dependent phase change was not found in studies of outer hair cell motility in vitro (Frank et al, 1999). Conceivably, passive mechanical elements within the organ could introduce such a phase lag.…”
Section: The Dallos-evans Theorymentioning
confidence: 84%
“…Length and stiffness changes depend on a specialized motor protein, prestin (Zheng et al, 2000). Electrically evoked hair cell motility is fast, with an upper frequency limit of at least 80 kHz (Frank et al, 1999;Grosh et al, 2004). Most theories of hearing organ function assume that force generated by prestin amplifies the motion of the organ, yielding a large increase of auditory sensitivity (Brownell et al, 1985;Ashmore, 1987;Ruggero and Rich, 1991;Evans and Dallos, 1993;Nuttall and Ren, 1995;Liberman et al, 2002;Fridberger and Boutet de Monvel, 2003).…”
Section: Introductionmentioning
confidence: 99%
“…The lateral membrane of the OHC is a highly specialized structure adapted for electromechanical transduction at frequencies approaching 100 kHz (Frank et al 1999;Brownell et al 2001;Brownell 2006;Ashmore 2008). The lateral wall of the adult OHC is low in cholesterol (Santi et al 1994;Nguyen and Brownell 1998;Oghalai et al 1999;Brownell and Oghalai 2000;Rajagopalan et al 2007).…”
Section: Introductionmentioning
confidence: 99%
“…This is a simple and non-invasive technique that circumvents most of the limitations of previous approaches [9][10][11] . Moreover, the LED-based illumination system provides extreme brightness with insignificant thermal effects on the samples and, because of the use of video microscopy, optical resolution is at least 10-fold higher than with conventional light microscopy techniques 12 .…”
Section: Introductionmentioning
confidence: 99%