First appearance and development of motile properties in outer hair cells isolated from guinea-pig cochlea
References (57)
- et al.
The cortical lattice: a highly ordered system of subsurface filaments in guinea pig cochlear outer hair cells
Prog. Brain Res.
(1988) - et al.
Development of cochlear frequency selectivity tested by compound action potential curves
Hear. Res.
(1979) Fatal contractions: ultrastructural and electromechanical changes in outer hair cells following transmembraneous electrical stimulation
Hear. Res.
(1990)- et al.
Development of 2f1−f2 otoacoustic emissions in the rat
Hear. Res.
(1987) Functional structure of the organ of Corti: A review
Hear. Res.
(1986)- et al.
Correlative development of cochlear action potential sensitivity, latency, and frequency selectivity
Dev. Brain Res.
(1987) - et al.
First appearance and development of slow and fast motile responses of outer hair cells
Abstr. Assoc. Res. Otolaryngol.
(1990) - et al.
The sensory epithelium and its innervation in the mole rat cochlea
J. Comp. Neurol.
(1991) Motile response in outer hair cells
Hear. Res.
(1986)- et al.
Fast motility of isolated mammalian auditory sensory cells
Biochem. Biophys. Res. Comm.
(1987)
Structurally-based new functional interpretations of the subsurface cisternal network in human outer hair cells
Acta Otolaryngol. (Stockh.)
A fast motile response in guinea-pig outer hair cells: The cellular basis of the cochlear amplifier
J. Physiol. (London)
Microscopic observation of cochlear hair cell motility
Scanning Electr. Microsc.
Evoked mechanical responses in isolated cochlear outer hair cells
Science
Nature of the motor element in electrokinetic shape changes of cochlear outer hair cells
Nature (Lond.)
Concomitant salicylate-induced alterations of outer hair cell subsurface cisternae and electromotility
J. Neurocytol.
The effects of combined gentamicin and white noise on the spiral organ of young guinea pigs
Acta Otolaryngol. (Stockh.)
The prenatal growth of the guinea-pig
Anat. Rec.
[K + ]-depolarization induces motility in outer hair cells by an osmotic mechanism
Hear. Res.
Increasing intracellular free calcium induces circumferential contractions in isolated cochlear outer hair cells
J. Neurosci.
Differential motile response of isolated inner and outer hair cells to stimulation by potassium and calcium
Hear. Res.
Photo-induced irreversible shortening and swelling of isolated cochlear outer hair cells
Int. J. Radiat. Biol.
Subsurface tubular system in the outer sensory cells of the rat cochlea
Cell Tissue Res.
The ultrastructure of the sensory cells of the cochlea
J. Laryngol. Otol.
Mechanisms and movement in outer hair cells and a possible structural basis
Arch. Otorhinolaryngol.
Structural features of the lateral walls in mammalian cochlear outer hair cells
Cell Tiss. Res.
Regional specialization of the hair cell plasmalemma in the organ of Corti
Anatomical Record
A cytoskeletal spring in cochlear outer hair cells
Nature
Cited by (42)
Sound-induced motility of outer hair cells explained by stochastic resonance in nanometric sensors in the lateral wall
2016, Physics in MedicineCitation Excerpt :In addition, OHCs function as pressure vessels [18] because their cytoskeleton is reinforced by the subsurface cisternae (SSC) and the cortical lattice (CL), and this reinforcement can support a pressure difference across their LW. Moreover, sensitive hearing is coupled to the anatomical arrangement between the PM of the LW of each OHC and the spaces of Nuel, and this coupling is more evident at the base of the cochlea, where higher frequencies are coded [19,20] (see Fig. 1B vs. Fig. 1C and D). In this report, we present a novel mechanism for sound-induced motility of OHCs and describe a new model for the initial sequence of events in the cochlea.
Development of the human fetal cochlear nerve: A morphometric study
2005, Hearing ResearchCitation Excerpt :Apart from these afferent fibers carrying sensory inputs to the brainstem, the nerve also has efferent fibers that convey information in the opposite direction from the brainstem to the hair cells. Morphological development of the sensory hair cells in the organ of Corti has been observed in the human fetuses and alongwith comparative studies in the mammals suggests that both structural and functional maturation occur by 20 weeks’ gestation (WG) (Romand et al., 1970; Pujol et al., 1991). Despite early maturation of the cochlea, the auditory function starts late and occurs only after the neural element mature (Sanes and Constantine-Paton, 1985; Sanes et al., 1992).
Developmental changes in the physiology of hair cells
1997, Seminars in Cell and Developmental BiologyDevelopment of cochlear active mechanisms in humans differs between gender
1996, Neuroscience Letters