Results 291 to 300 of about 67,013 (327)
Some of the next articles are maybe not open access.
The Capillary in the Human Cochlea
Acta Oto-Laryngologica, 1969The capillary area of eighteen aged human cochleas was studied using an alkaline phosphatasc staining method. The technique is described in detail. Modes of capillary branching in the spiral lamina were different from turn to turn. The vas spirale, a loop capillary vessel beneath the tunnel of Corti, was long in the basal turn and short in the upper ...
Ichiro Kirikae +2 more
openaire +3 more sources
NOTES ON THE INNERVATION OF THE COCHLEA
Archives of Otolaryngology - Head and Neck Surgery, 1952IN A PRECEDING article, 1 the existence of two systems of fibers, independent of each other, in the lamina spiralis of the cochlea of mammals was clearly demonstrated. Of these two systems, one is radially arranged and has its origin in the cells of the spiral ganglion, while the other is spirally arranged and is independent of the spiral ganglion. The
openaire +4 more sources
Theory of Operation of the Cochlea: A Contribution to the Hydrodynamics of the Cochlea
The Journal of the Acoustical Society of America, 1950This paper presents a short summary of calculations on the vibrations of the cochlear partition (basilar membrane). It is possible to determine the shape, velocity, and amplitude distribution of the traveling waves running from the stapes to the inner ear.
openaire +2 more sources
Expression of midkine in the cochlea
Hearing Research, 2001Midkine (MK) is one of a new family of heparin-binding growth factors involved in the regulation of growth and differentiation. We have analyzed expression of MK in the cochlea using ICR mice within 1 day from birth. The expression of MK in the cochlea was confirmed by Western blotting and immunohistochemistry.
Tsutomu Nakashima +3 more
openaire +3 more sources
2016
We describe the linear hydrodynamic model of the cochlear partition as developed by Von Bekesy and Zwislocki. The basilar membrane (BM) motion is driven by the instantaneous pressure difference across the organ of Corti, which induces a traveling wave along the BM, which peaks at a frequency-specific location. Although the linear model accounts for the
openaire +3 more sources
We describe the linear hydrodynamic model of the cochlear partition as developed by Von Bekesy and Zwislocki. The basilar membrane (BM) motion is driven by the instantaneous pressure difference across the organ of Corti, which induces a traveling wave along the BM, which peaks at a frequency-specific location. Although the linear model accounts for the
openaire +3 more sources
WITHDRAWN: Feedback in the cochlea
Hearing Research, 2010This article has been withdrawn at the request of the author(s) and/or editor. The Publisher apologizes for any inconvenience this may cause. The full Elsevier Policy on Article Withdrawal can be found at http://www.elsevier.com/locate/withdrawalpolicy.
openaire +3 more sources
Journal of Fluid Mechanics, 1981
With moderate acoustic stimuli, measurements of basilar-membrane vibration (especially, those using a Mossbauer source attached to the membrane) demonstrate: a high degree of asymmetry, in that the response to a pure tone falls extremely sharply above the characteristic frequency, although much more gradually below it;a substantial phase-lag in ...
openaire +3 more sources
With moderate acoustic stimuli, measurements of basilar-membrane vibration (especially, those using a Mossbauer source attached to the membrane) demonstrate: a high degree of asymmetry, in that the response to a pure tone falls extremely sharply above the characteristic frequency, although much more gradually below it;a substantial phase-lag in ...
openaire +3 more sources
2019
The transduction process in the cochlea requires patent hair cells. Population responses that reflect this patency are the cochlear microphonic (CM) and summating potential (SP). They can be measured using electrocochleography (ECochG). The CM reflects the sound waveform in the form of outer hair cell (OHC) depolarization and hyperpolarization, and the
openaire +3 more sources
The transduction process in the cochlea requires patent hair cells. Population responses that reflect this patency are the cochlear microphonic (CM) and summating potential (SP). They can be measured using electrocochleography (ECochG). The CM reflects the sound waveform in the form of outer hair cell (OHC) depolarization and hyperpolarization, and the
openaire +3 more sources