Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
about
Ca2+ current-driven nonlinear amplification by the mammalian cochlea in vitro.Consequences of Location-Dependent Organ of Corti Micro-Mechanics.All Three Rows of Outer Hair Cells Are Required for Cochlear AmplificationReticular lamina and basilar membrane vibrations in living mouse cochleaeTone-burst auditory brainstem response wave V latencies in normal-hearing and hearing-impaired ears.Basal contributions to short-latency transient-evoked otoacoustic emission components.Measurement of basilar membrane motion during round window stimulation in guinea pigs.Vibration of the organ of Corti within the cochlear apex in mice.Frequency selectivity without resonance in a fluid waveguideMapping auditory nerve firing density using high-level compound action potentials and high-pass noise masking.Basilar membrane vibration is not involved in the reverse propagation of otoacoustic emissions.Basilar membrane responses to tones and tone complexes: nonlinear effects of stimulus intensity.Auditory nerve excitation via a non-traveling wave mode of basilar membrane motionBasilar membrane velocity in a cochlea with a modified organ of Corti.Feed-forward and feed-backward amplification model from cochlear cytoarchitecture: an interspecies comparison.The biophysical origin of traveling-wave dispersion in the cochlea.Phase-locked responses to tones of chinchilla auditory nerve fibers: implications for apical cochlear mechanics.Outer hair cell electromechanical properties in a nonlinear piezoelectric modelThreshold tuning curves of chinchilla auditory nerve fibers. II. Dependence on spontaneous activity and relation to cochlear nonlinearity.Tuning of the tectorial membrane in the basilar papilla of the northern leopard frog.Similarity of traveling-wave delays in the hearing organs of humans and other tetrapodsSound pressure distribution and power flow within the gerbil ear canal from 100 Hz to 80 kHz.Comparison of group delays of 2f(1)-f(2) distortion product otoacoustic emissions and cochlear travel times.High-frequency sensitivity of the mature gerbil cochlea and its development.Use of stimulus-frequency otoacoustic emission latency and level to investigate cochlear mechanics in human earsLongitudinal pattern of basilar membrane vibration in the sensitive cochlea.A COCHLEAR MODEL USING THE TIME-AVERAGED LAGRANGIAN AND THE PUSH-PULL MECHANISM IN THE ORGAN OF CORTI.Localization of the cochlear amplifier in living sensitive earsMechanical tuning and amplification within the apex of the guinea pig cochlea.Two passive mechanical conditions modulate power generation by the outer hair cells.Reverse cochlear propagation in the intact cochlea of the gerbil: evidence for slow traveling waves.Forward and Reverse Waves: Modeling Distortion Products in the Intracochlear Fluid Pressure.Cochlear amplification and tuning depend on the cellular arrangement within the organ of Corti.Timing of the reticular lamina and basilar membrane vibration in living gerbil cochleae
P2860
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P2860
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh-hant
name
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@en
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@nl
type
label
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@en
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@nl
prefLabel
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@en
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@nl
P1433
P1476
Basilar membrane vibration in the basal turn of the sensitive gerbil cochlea.
@en
P2093
P356
10.1016/S0378-5955(00)00211-2
P577
2001-01-01T00:00:00Z