Contributions of evaporation and other mechanisms to tear film thinning and break-up.
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The Effect of Tear Supplementation on Ocular Surface Sensations during the Interblink Interval in Patients with Dry EyeTear film breakup and structure studied by simultaneous video recording of fluorescence and tear film lipid layer imagesTear film dynamics with evaporation, wetting, and time-dependent flux boundary condition on an eye-shaped domain.High resolution microscopy of the lipid layer of the tear film.Hyperosmolar tears enhance cooling sensitivity of the corneal nerves in rats: possible neural basis for cold-induced dry eye pain.Prevalence of dry eye syndrome after a three-year exposure to a clean roomDry eye as a mucosal autoimmune disease.Evidence for the major contribution of evaporation to tear film thinning between blinks.The international workshop on meibomian gland dysfunction: report of the diagnosis subcommittee.Organization of lipids in the tear film: a molecular-level view.Dynamics and function of the tear film in relation to the blink cycle.Tear dysfunction and the cornea: LXVIII Edward Jackson Memorial Lecture.Application of a novel interferometric method to investigate the relation between lipid layer thickness and tear film thinning.Enzymatic quantification of cholesterol and cholesterol esters from silicone hydrogel contact lensesOcular dryness excites two classes of corneal afferent neurons implicated in basal tearing in rats: involvement of transient receptor potential channels.The use of fluorescent quenching in studying the contribution of evaporation to tear thinningMenthol activation of corneal cool cells induces TRPM8-mediated lacrimation but not nociceptive responses in rodentsHyperosmolar Tears Induce Functional and Structural Alterations of Corneal Nerves: Electrophysiological and Anatomical Evidence Toward Neurotoxicity.Quantitative characterization reveals three types of dry-sensitive corneal afferents: pattern of discharge, receptive field, and thermal and chemical sensitivity.Eye disorders in old peopleQuantitative analysis of tear film fluorescence and discomfort during tear film instability and thinning.Tear film images and breakup analyzed using fluorescent quenchingEstimating the Osmolarities of Tears During Evaporation Through the "Eyes" of the Corneal Nerves.A model for tear film thinning with osmolarity and fluorescein.Osmolality and tear film dynamics.Four characteristics and a model of an effective tear film lipid layer (TFLL).TFOS DEWS II Tear Film Report.Forward light scatter analysis of the eye in a spatially-resolved double-pass optical system.Wax-tear and meibum protein, wax-β-carotene interactions in vitro using infrared spectroscopy.Measurement of central corneal thickness and pre-corneal tear film thickness of rabbits using the Scheimpflug system.Meniscal tear film fluid dynamics near Marx's line.Mechanisms, imaging and structure of tear film breakup.Tear film break-up time in rabbits.
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P2860
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
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article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on August 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@en
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
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type
label
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@en
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@nl
prefLabel
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@en
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@nl
P2093
P1476
Contributions of evaporation and other mechanisms to tear film thinning and break-up.
@en
P2093
Barbara A Fink
Jason J Nichols
Kelly K Nichols
P Ewen King-Smith
Richard J Braun
P304
P356
10.1097/OPX.0B013E318181AE60
P577
2008-08-01T00:00:00Z