A framework for comparing structural and functional measures of glaucomatous damage.
about
Visual advantage in deaf adults linked to retinal changesStrategies for improving early detection of glaucoma: the combined structure-function indexImaging Glaucomatous Damage Across the Temporal Raphe.Association between progressive retinal nerve fiber layer loss and longitudinal change in quality of life in glaucomaA method to estimate the amount of neuroretinal rim tissue in glaucoma: comparison with current methods for measuring rim area.[Diagnosis and monitoring of multiple sclerosis: the value of optical coherence tomography].Optical coherence tomography as a biomarker in multiple sclerosis.Nonlinear, multilevel mixed-effects approach for modeling longitudinal standard automated perimetry data in glaucomaEffect of a variability-adjusted algorithm on the efficiency of perimetric testing.Role of the macular optical coherence tomography scan in neuro-ophthalmologyAn analysis of normal variations in retinal nerve fiber layer thickness profiles measured with optical coherence tomographyDiagnostic tools for glaucoma detection and management.The location of the inferior and superior temporal blood vessels and interindividual variability of the retinal nerve fiber layer thickness.In-vivo imaging of retinal nerve fiber layer vasculature: imaging histology comparisonCorrelation between photopic negative response of focal electroretinograms and local loss of retinal neurons in glaucoma.A comparison of visual field sensitivity to photoreceptor thickness in retinitis pigmentosa.Detection of glaucoma progression by perimetry and optic disc photography at different stages of the disease: results from the Early Manifest Glaucoma Trial.Lesions in the posterior visual pathway promote trans-synaptic degeneration of retinal ganglion cellsPosition of retinal blood vessels correlates with retinal nerve fibre layer thickness profiles as measured with GDx VCC and ECC.Structure and function in patients with glaucomatous defects near fixation.Comparisons of retinal nerve fiber layer thickness after indocyanine green, brilliant blue g, or triamcinolone acetonide-assisted macular hole surgery.Assessment of the reliability of standard automated perimetry in regions of glaucomatous damageCombining structural and functional measurements to improve detection of glaucoma progression using Bayesian hierarchical modelsCoupled parametric model for estimation of visual field tests based on OCT macular thickness maps, and vice versa, in glaucoma careReducing variability in visual field assessment for glaucoma through filtering that combines structural and functional information.Clinical use of OCT in assessing glaucoma progression.Integration and fusion of standard automated perimetry and optical coherence tomography data for improved automated glaucoma diagnostics.Depth and area of retinal nerve fiber layer damage and visual field correlation analysis.Multivariable logistic regression model: a novel mathematical model that predicts visual field sensitivity from macular ganglion cell complex thickness in glaucomaComparison of multifocal visual evoked potential, standard automated perimetry and optical coherence tomography in assessing visual pathway in multiple sclerosis patients.Misguided progression analysis by optical coherence tomography: a report of two casesCombining structural and functional measurements to improve estimates of rates of glaucomatous progression.The effect of test variability on the structure-function relationship in early glaucoma.Use of the structure-function relationship in detecting glaucoma progression in early glaucoma.Measurement of local retinal ganglion cell layer thickness in patients with glaucoma using frequency-domain optical coherence tomography.Intraocular pressure magnitude and variability as predictors of rates of structural change in non-human primate experimental glaucoma.A test of a linear model of glaucomatous structure-function loss reveals sources of variability in retinal nerve fiber and visual field measurements.Relationship between orbital optic nerve axon counts and retinal nerve fiber layer thickness measured by spectral domain optical coherence tomographyTest-retest variability in structural parameters measured with glaucoma imaging devices.Association of visual function and ganglion cell layer thickness in patients with diabetes mellitus type 1 and no or minimal diabetic retinopathy.
P2860
Q21560813-EB8B9A23-0D42-4744-9FB8-CB6C8A1E24B0Q26997010-6B30A0D0-32F4-4F4A-9121-3996E757377BQ27334795-C6588D78-120A-4B31-9C72-18205C7AA21BQ27344981-9E8CF097-0B4E-46BF-9BDA-D444E7B095D3Q30573554-5FF7F25B-2AB3-4331-AE8D-6234AAAB2386Q30591135-792018E2-DF76-4767-9638-3754E4A09F6BQ30597564-CFF88F23-9B5B-44AF-848B-2421641963ADQ30653907-32781696-00FF-4E5E-A6B7-1A1F04A2A7E4Q30796582-9370BEBD-789A-42AD-94AB-6988C100DCC6Q33352546-07797871-5973-444B-8CBE-4168E706A748Q33360235-1F4BB4C9-96F8-466E-86AD-3C5650E52B70Q33387777-455D5195-9519-44DD-BBDA-CA69D6B4939EQ33491500-289E2384-B97A-4D98-92DE-39605AC5EE7AQ33495759-15FC309F-7276-4E61-B42C-1A917B385B84Q33529833-1F7F5D0C-9C01-44F8-9DD1-914A845BC5BBQ33539517-372A9CA3-E0C1-4ABE-B26B-F76B34F7EF6EQ33626057-44C6BFE9-1C1C-4366-BDAB-1077BBDCDEB7Q33654849-CEE1EB75-DA2A-4B9C-8441-712EE2F21859Q33678545-D9FB5CD9-FBAE-4318-9095-5AEA6F64DB95Q33714185-9171E7AA-8895-4EBD-8610-50EBCFD9560DQ33747027-AD4A8FE6-3E9C-4728-B279-3E37E42E76FCQ33849414-18FB788E-B263-42BB-B90E-03D14EFFC888Q33938838-E284E916-E976-4C8A-BD27-CCEC8A97A00FQ33948986-13E3D8AE-1696-431D-81DC-F9E3AEE825AEQ33957323-7335C113-A736-4DC7-BD16-BDF69954B89BQ33971701-69C48406-63F5-4848-9FE5-368C831DF70CQ33982090-ECA9AA6C-6A09-4DF6-A93A-9ECF8D4ED0D7Q33996067-BE58D39C-B7C6-4445-BF44-121CF0EED3BCQ34061386-916E96A4-F97A-49EF-9694-81408AF028B5Q34104172-6122669A-BF3F-4A73-B1E3-DFB1BD56B3D5Q34125317-64A3EEBD-EAD3-474D-87F2-CC934A390A7CQ34154000-F9DC479B-80BC-4281-B51E-E1ADBE4C2112Q34242957-5DAFD79B-C822-472C-8753-86BB4710DED9Q34316515-8B66B3CC-8EB8-405C-AE24-EFDBB8EC49EAQ34330129-FD9471D8-6293-4C23-B201-48E845C1CEFDQ34409191-7BC4FD77-CFF9-48D9-935C-5623688942CDQ34414644-8F6B4590-CC46-4318-B630-CCE49C4D5FB8Q34466514-F4461A59-4226-411B-9C74-A1EEC1ACA859Q34471403-016AFB30-7BBB-4B1D-8935-4162724324AEQ34474265-9BCE9B44-C8BE-4DEA-A1ED-95A868F66F94
P2860
A framework for comparing structural and functional measures of glaucomatous damage.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
A framework for comparing structural and functional measures of glaucomatous damage.
@ast
A framework for comparing structural and functional measures of glaucomatous damage.
@en
type
label
A framework for comparing structural and functional measures of glaucomatous damage.
@ast
A framework for comparing structural and functional measures of glaucomatous damage.
@en
prefLabel
A framework for comparing structural and functional measures of glaucomatous damage.
@ast
A framework for comparing structural and functional measures of glaucomatous damage.
@en
P2860
P1476
A framework for comparing structural and functional measures of glaucomatous damage
@en
P2093
Donald C Hood
P2860
P304
P356
10.1016/J.PRETEYERES.2007.08.001
P577
2007-08-21T00:00:00Z