Normal hearing depends on the amplification of sound in the cochlea. In this issue of Neuron, Fettiplace and colleagues show that prestin-based amplification is a viable mechanism as it is not limited by the outer hair cell's membrane time constant as previously surmised
AbstractOuter hair cell (OHC) somatic motility plays a key role in mammalian cochlear frequency sele...
SummaryIn the inner ear, sensory hair cells not only detect but also amplify the softest sounds, all...
The mammalian outer hair cells (OHCs) provide a positive mechanical feedback to enhance the cochlea’...
SummaryOuter hair cells (OHCs) provide amplification in the mammalian cochlea using somatic force ge...
Normal hearing depends on the amplification of sound in the cochlea. In this issue of Neuron, Fettip...
Outer hair cells (OHCs) of the mammalian cochlea behave like actuators: they feed energy into the co...
SummaryThe sensory hair cells of amniote hearing organs are usually distributed in tonotopic array f...
The location and longitudinal extent of cochlear biomechanical amplification has been an open questi...
AbstractOuter hair cells provide amplification within the mammalian cochlea to enhance audition. The...
SummaryMammalian hearing is boosted by mechanically active auditory receptor cells, the outer hair c...
Hearing organs are usually distributed in tonotopic array from low to high frequencies and are very ...
The remarkable power amplifier [1] of the cochlea boosts low-level and compresses high-level vibrati...
SummaryThe remarkable power amplifier [1] of the cochlea boosts low-level and compresses high-level ...
The remarkable power amplifier [1] of the cochlea boostslow-level and compresses high-level vibratio...
AbstractThe active amplification of sound-induced vibrations in the cochlea, known to be crucial for...
AbstractOuter hair cell (OHC) somatic motility plays a key role in mammalian cochlear frequency sele...
SummaryIn the inner ear, sensory hair cells not only detect but also amplify the softest sounds, all...
The mammalian outer hair cells (OHCs) provide a positive mechanical feedback to enhance the cochlea’...
SummaryOuter hair cells (OHCs) provide amplification in the mammalian cochlea using somatic force ge...
Normal hearing depends on the amplification of sound in the cochlea. In this issue of Neuron, Fettip...
Outer hair cells (OHCs) of the mammalian cochlea behave like actuators: they feed energy into the co...
SummaryThe sensory hair cells of amniote hearing organs are usually distributed in tonotopic array f...
The location and longitudinal extent of cochlear biomechanical amplification has been an open questi...
AbstractOuter hair cells provide amplification within the mammalian cochlea to enhance audition. The...
SummaryMammalian hearing is boosted by mechanically active auditory receptor cells, the outer hair c...
Hearing organs are usually distributed in tonotopic array from low to high frequencies and are very ...
The remarkable power amplifier [1] of the cochlea boosts low-level and compresses high-level vibrati...
SummaryThe remarkable power amplifier [1] of the cochlea boosts low-level and compresses high-level ...
The remarkable power amplifier [1] of the cochlea boostslow-level and compresses high-level vibratio...
AbstractThe active amplification of sound-induced vibrations in the cochlea, known to be crucial for...
AbstractOuter hair cell (OHC) somatic motility plays a key role in mammalian cochlear frequency sele...
SummaryIn the inner ear, sensory hair cells not only detect but also amplify the softest sounds, all...
The mammalian outer hair cells (OHCs) provide a positive mechanical feedback to enhance the cochlea’...
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