about
Surveillance for ocular hypertension: an evidence synthesis and economic evaluationExploring eye movements in patients with glaucoma when viewing a driving sceneThe EPIC-Norfolk Eye Study: rationale, methods and a cross-sectional analysis of visual impairment in a population-based cohortIris concavity, corneal biomechanics, and their correlations with ocular biometry in a cohort of 10- to 12-year-old UK school boys: baseline data.Longitudinal study of iris concavity, corneal biomechanics, and correlations to ocular biometry in a cohort of 10- to 12-year-old UK schoolboys: 2-year follow-up data.Variability across the optic nerve head in scanning laser tomography.Comparison of optic nerve imaging methods to distinguish normal eyes from those with glaucoma.Reasons for rim area variability in scanning laser tomography.Identification of early glaucoma cases with the scanning laser ophthalmoscope.Aging changes of the optic nerve head in relation to open angle glaucoma.Diagnosing glaucoma progression: current practice and promising technologies.Improving the repeatability of topographic height measurements in confocal scanning laser imaging using maximum-likelihood deconvolution.Structure and function in glaucoma: The relationship between a functional visual field map and an anatomic retinal map.Interobserver variability in confocal optic nerve analysis (HRT).Predicting visual field loss in ocular hypertensive patients using wavelet-fourier analysis of GDx scanning laser polarimetry.Evaluating the effect of the new alignment algorithm for longitudinal series of Heidelberg retina tomography images.The pseudotemporal bootstrap for predicting glaucoma from cross-sectional visual field data.Clinical assessment of stereoscopic optic disc photographs for glaucoma: the European Optic Disc Assessment Trial.Intraocular pressure measurement precision with the Goldmann applanation, dynamic contour, and ocular response analyzer tonometers.Predicting visual function from the measurements of retinal nerve fiber layer structure.Scanning laser polarimetry quantification of retinal nerve fiber layer thinning following optic neuritis.An in silico model of scanning laser tomography image series: an alternative benchmark for the specificity of progression algorithms.YAG laser peripheral iridotomy for the prevention of pigment dispersion glaucoma a prospective, randomized, controlled trial.Systemic medication and intraocular pressure in a British population: the EPIC-Norfolk Eye Study.The United Kingdom Glaucoma Treatment Study: a multicenter, randomized, placebo-controlled clinical trial: design and methodology.Comparison of neuroretinal rim area measurements made by the Heidelberg Retina Tomograph I and the Heidelberg Retina Tomograph II.How does glaucoma look?: patient perception of visual field loss.Relationship of regression pattern to recurrence in retinoblastomaGlaucomatous progression in series of stereoscopic photographs and Heidelberg retina tomograph images.Associations with retinal nerve fiber layer measures in the EPIC-Norfolk Eye StudyLaser scanning tomography in the EPIC-Norfolk Eye Study: principal components and associations.Corneal biomechanical properties and glaucoma-related quantitative traits in the EPIC-Norfolk Eye Study.New insights into measurement variability in glaucomatous visual fields from computer modelling.Normative Databases for Imaging Instrumentation.Vertical cup/disc ratio in relation to optic disc size: its value in the assessment of the glaucoma suspectMeasurement of optic disc size: equivalence of methods to correct for ocular magnification.Clinical factors influencing the visual prognosis of the fellow eyes of normal tension glaucoma patients with unilateral field lossUse of high spatial resolution perimetry to identify scotomata not apparent with conventional perimetry in the nasal field of glaucomatous subjectsA comparison of four methods of tonometry: method agreement and interobserver variability.The influence of central corneal thickness and age on intraocular pressure measured by pneumotonometry, non-contact tonometry, the Tono-Pen XL, and Goldmann applanation tonometry.
P50
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P50
description
hulumtues
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researcher
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wetenschapper
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հետազոտող
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name
David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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prefLabel
David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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David Garway-Heath
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P106
P21
P2456
P31
P496
0000-0003-2907-6992