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Chua J 33
Showing records 1 to 25 | Display all abstracts from Chua J98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Wu X
Scientific reports 2022; 12: 1400
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Kallab M
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Calzetti G
Acta Ophthalmologica 2022; 100: e181-e191
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Hommer N
Annals of the New York Academy of Science 2022; 1511: 133-141
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Tan B
Scientific reports 2022; 12: 1400
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Mursch-Edlmayr AS
Acta Ophthalmologica 2022; 100: e181-e191
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Gan J; Gan J
Scientific reports 2022; 12: 1400
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Schlatter A
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Bata AM
Acta Ophthalmologica 2022; 100: e181-e191
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Chua J
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Ungaro N
Acta Ophthalmologica 2022; 100: e181-e191
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Lam AR
Scientific reports 2022; 12: 1400
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Mora P
Acta Ophthalmologica 2022; 100: e181-e191
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Tan B
Annals of the New York Academy of Science 2022; 1511: 133-141
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Chen Y
Scientific reports 2022; 12: 1400
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Schmidl D
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Chua J
Acta Ophthalmologica 2022; 100: e181-e191
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Liu X
Scientific reports 2022; 12: 1400
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Hirn C
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Schmidl D
Acta Ophthalmologica 2022; 100: e181-e191
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Chua J
Scientific reports 2022; 12: 1400
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Bolz M
Acta Ophthalmologica 2022; 100: e181-e191
98638 Evaluation of different OCT systems in quantitative imaging of human Schlemm's canal
Wong DWK
Scientific reports 2022; 12: 1400
98530 Combining vascular and nerve fiber layer thickness measurements to model glaucomatous focal visual field loss
Findl O
Annals of the New York Academy of Science 2022; 1511: 133-141
98064 Measuring optic nerve head perfusion to monitor glaucoma: a study on structure-function relationships using laser speckle flowgraphy
Garhöfer G
Acta Ophthalmologica 2022; 100: e181-e191
