Results 201 to 210 of about 23,676 (266)
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A review on otolith models in human perception
Behavioural Brain Research, 2016 Houshyar Asadi +2 more
exaly +2 more sources
Medical alphabet, 2022
Labyrinth of the inner ear consists of two parts: semicircular canals and vestibulum. Vestibular disorders predominantly associated with vertigo – the feeling of moving of the surrounding objects and oscillopsia. However, vertigo is a result of the damage of ampullar receptors in semicircular canals and their connections with vestibular nuclei in ...
M. V. Zamergrad +3 more
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Labyrinth of the inner ear consists of two parts: semicircular canals and vestibulum. Vestibular disorders predominantly associated with vertigo – the feeling of moving of the surrounding objects and oscillopsia. However, vertigo is a result of the damage of ampullar receptors in semicircular canals and their connections with vestibular nuclei in ...
M. V. Zamergrad +3 more
openaire +1 more source
SAE Technical Paper Series, 1988
<div class="htmlview paragraph">The otolith organs are the linear motion sensors of the mammalian system. As part of the vestibular system these small organs are located in the inner ear. Mathematically modeled, they consist of an overdamped second-order system with elastic, viscous damping, and mass elements.
J. Wallace Grant, William A. Best
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<div class="htmlview paragraph">The otolith organs are the linear motion sensors of the mammalian system. As part of the vestibular system these small organs are located in the inner ear. Mathematically modeled, they consist of an overdamped second-order system with elastic, viscous damping, and mass elements.
J. Wallace Grant, William A. Best
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Fisheries Research, 1999
Otolith thermal marking is a widely used technique for identifying origins of hatchery-produced salmonids, using short-term temperature fluctuations to induce distinctive structural marks onto the otoliths of incubating fish. This has clear economic advantages over individual tagging techniques, where fins are clipped or materials inserted into the ...
Eric C. Volk +2 more
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Otolith thermal marking is a widely used technique for identifying origins of hatchery-produced salmonids, using short-term temperature fluctuations to induce distinctive structural marks onto the otoliths of incubating fish. This has clear economic advantages over individual tagging techniques, where fins are clipped or materials inserted into the ...
Eric C. Volk +2 more
openaire +1 more source
Marine Environmental Research, 2018
Reconstructing habitat use and environmental histories of fish via otolith chemistry relies on linking otolith chemical composition to the surrounding environment, as well as disentangling the consequences of ontogenetic or physiological effects that may
P. Reis‐Santos +5 more
semanticscholar +1 more source
Reconstructing habitat use and environmental histories of fish via otolith chemistry relies on linking otolith chemical composition to the surrounding environment, as well as disentangling the consequences of ontogenetic or physiological effects that may
P. Reis‐Santos +5 more
semanticscholar +1 more source
British Journal of Audiology, 1992
Otolithic signals contribute to; (1) perception of orientation and linear motion, (2) generate compensatory eye movements in response to linear acceleration of the head and (3) participate in the co-ordination of movement and balance. Tests of these functions shown to be useful in identifying clinical disorders have been reviewed: (1) Evaluation of ...
M A, Gresty, A M, Bronstein
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Otolithic signals contribute to; (1) perception of orientation and linear motion, (2) generate compensatory eye movements in response to linear acceleration of the head and (3) participate in the co-ordination of movement and balance. Tests of these functions shown to be useful in identifying clinical disorders have been reviewed: (1) Evaluation of ...
M A, Gresty, A M, Bronstein
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2019
Two technically simple tests, vestibular evoked myogenic potential (VEMP) and subjective visual vertical/horizontal (SVV/H) test, have the potential to transform otolith function testing from the research laboratory to the outpatient clinic. Cervical- and ocular-VEMPs are short latency surface potentials produced through the activation of saccular and ...
Rachael L, Taylor, Miriam S, Welgampola
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Two technically simple tests, vestibular evoked myogenic potential (VEMP) and subjective visual vertical/horizontal (SVV/H) test, have the potential to transform otolith function testing from the research laboratory to the outpatient clinic. Cervical- and ocular-VEMPs are short latency surface potentials produced through the activation of saccular and ...
Rachael L, Taylor, Miriam S, Welgampola
openaire +2 more sources
The Otolithic Membrane Mediates Otolith Organization
The FASEB Journal, 2016Otoconia are small biocrystals that link mechanical forces to the sensory hair cells in the mammalian utricle and saccule, a process essential for sensing linear acceleration and gravity as well as maintaining bodily balance. In fish, structurally similar otoliths mediate both balance and hearing.
Kenneth L. Kramer, Kevin D. Thiessen
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Compensation of Otolith Function
Acta Oto-Laryngologica, 1989Horizontal eye displacement in total darkness during lateral tilting about the body axis was examined in 14 patients with unilateral loss of labyrinth function, including 8 cases of positional vertigo or dizziness and 6 symptom-free cases. The change in eye displacement following labyrinthectomy was also studied in 2 cases of labyrinthitis and one case
T, Takeda, M, Kitahara
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