Results 161 to 170 of about 314,350 (192)
Noise-induced hearing loss among military personnel in Saudi Arabia: a preliminary study. [PDF]
J Med LifeAlanazi A, AlMutairi A, AlHargan F.
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Deficiency of TMEM16F in hair cells prevents diabetes-related and noise-induced hearing loss. [PDF]
Genes DisChen L +9 more
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Global impact of Occupational Noise-Induced Hearing Loss (ONIHL): trends, gender disparities, and future projections: 1990-2036. [PDF]
Front Glob Womens HealthLiu D, Ji H, Chen Y, Li W.
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Exploring the Awareness of Noise-Induced Hearing Loss from Headphone Use: A Cross-Sectional Study Integrating the Health Belief Model and COM-B Framework. [PDF]
Healthcare (Basel)Elmorsy EM +7 more
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Noise-induced hearing loss in Turkish special forces personnel. [PDF]
Medicine (Baltimore)Coluk Y, Hizli O, Kayabasi S.
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Drug-Therapeutic Strategies for Noise-Induced Hearing Loss: A Narrative Review.
Noise HealthDeng Z +5 more
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NOISE-INDUCED UNIDIRECTIONAL TRANSPORT
Stochastics and Dynamics, 2001Constructive conditions for existence of unidirectional transport are given for systems with state-dependent noise and for forced thermal ratchets. Using them, domains of parameters corresponding to unidirectional transport are identified. Some results of numerical experiments are presented.
Milstein, Grigori N. +1 more
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Trichotomous noise-induced transitions
Physical Review E, 1999A nonlinear one-dimensional process driven by a multiplicative exponentially correlated three-level Markovian noise (trichotomous noise) is considered. An explicit second-order linear ordinary differential equation for the stationary probability density distribution is obtained for the process.
R, Mankin, A, Ainsaar, E, Reiter
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European Biophysics Journal, 1986
The firing pattern of neural pulses often show the following features: the shapes of individual pulses are nearly identical and frequency independent; the firing frequency can vary over a broad range; the time period between pulses shows a stochastic scatter. This behaviour cannot be understood on the basis of a deterministic non-linear dynamic process,
H, Treutlein, K, Schulten
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The firing pattern of neural pulses often show the following features: the shapes of individual pulses are nearly identical and frequency independent; the firing frequency can vary over a broad range; the time period between pulses shows a stochastic scatter. This behaviour cannot be understood on the basis of a deterministic non-linear dynamic process,
H, Treutlein, K, Schulten
openaire +2 more sources