Publications of Dr Jano van Hemert
2023
[54]Baseline retinal vascular bed area on ultra-wide field fluorescein angiography correlates with the anatomical outcome of diabetic macular oedema to ranibizumab therapy: two-year analysis of the DAVE Study (, , , , , , , and ), In Eye, volume 37, . [bibtex]
2022
[53] Choroidal vascular alterations evaluated by ultra-widefield indocyanine green angiography in central serous chorioretinopathy (, , and ), In Graefes Arch Clin Exp Ophthalmol, volume 260, . [bibtex] [url]
[52] Clinical significance of metabolic quantification for retinal nonperfusion in diabetic retinopathy (, , and ), In Scientific Reports, volume 12, . [bibtex] [url] [doi]
[51]Multi-modal retinal scanning to measure retinal thickness and peripheral blood vessels in multiple sclerosis (, , , , and ), In Sci. Rep., Springer Science and Business Media LLC, volume 12, . [bibtex]
2021
[50] Effects of refractive power on quantification using ultra-widefield retinal imaging (, , , and ), In BMC Ophthalmology, volume 21, . [bibtex] [url] [doi]
[49]Retinal vascular bed area on ultra-wide field fluorescein angiography indicates the severity of diabetic retinopathy (, , , , , , , , and ), In Br J Ophthalmol, . [bibtex] [doi]
[48]A New Biomarker Quantifying The Effect Of Anti-VEGF Therapy In Eyes With Proliferative Diabetic Retinopathy On Ultra-wide Field Fluorescein Angiography: Recovery Study (, , , , , , , , and ), In Retina, . [bibtex]
[47] Macular Microvascular Changes and Their Correlation With Peripheral Nonperfusion in Branch Retinal Vein Occlusion (, , , and ), In Am J Ophthalmol, volume 225, . [bibtex] [url] [doi]
[46] Relationship between distribution and severity of non-perfusion and cytokine levels and macular thickness in branch retinal vein occlusion (, , , and ), In Scient Rep, volume 11, . [bibtex] [url] [doi]
2020
[45]Fractal analysis of retinal vasculature in normal subjects on ultra-wide field fluorescein angiography (, , , , , , , and ), In Int. J. Ophthalmol., volume 13, . [bibtex]
[44] Quantitative analysis of choroidal vasculature in polypoidal choroidal vasculopathy using ultra-widefield indocyanine green angiography (, , and ), In Nature Scient Rep, volume 10, . [bibtex] [url] [doi]
[43] Retinal vascular caliber association with nonperfusion and diabetic retinopathy severity depends on vascular caliber measurement location (, , , , , , , , , , , and ), In Ophthalmol Retina, . [bibtex] [url] [doi]
[42] Distribution of peripheral lesions identified by mydriatic ultra-wide field fundus imaging in diabetic retinopathy (, , , , , , , , and ), In Graefe's Archive for Clinical and Experimental Ophthalmology, volume 258, . [bibtex] [url] [doi]
[41] Association between hypertension and retinal vascular features in ultra-widefield fundus imaging (, , , , , , , , , , , , , , and ), In Open Heart, volume 7, . [bibtex] [url] [doi]
[40] Distribution and Location of Vortex Vein Ampullae in Healthy Human Eyes as Assessed by Ultra-Widefield Indocyanine Green Angiography (, , , , , , , , and ), In Ophthalmol Retina, volume 4, . [bibtex] [url] [doi]
[39] Peripheral extent of the choroidal circulation by ultra-widefield indocyanine green angiography in healthy eyes (, , , , , , , , and ), In Br J Ophthalmol, . [bibtex] [url] [doi]
[38]Optic Disc and Fovea Localisation in Ultra-widefield Scanning Laser Ophthalmoscope Images Captured in Multiple Modalities (, , , , , and ), In Communications in Computer and Information Science (Zheng, Yalin, Williams, Bryan M., Chen, Ke, eds.), Springer International Publishing, . [bibtex] [doi]
2019
[37] Effect of phase-plate adjustment on retinal image sharpness and visible retinal area on ultrawide-field imaging (, , , , , , and ), In Eye, Springer Nature America, . [bibtex] [url] [doi]
[36] Classification of Regions of Nonperfusion on Ultra-widefield Fluorescein Angiography in patients with Diabetic Macular Edema (, , , , , , , , and ), In Am J Ophthalmol, Elsevier, . [bibtex] [url] [doi]
[35]Distribution of Non-perfusion and Neovascularization on Ultra-Wide Field Fluorescein Angiography in Proliferative Diabetic Retinopathy (RECOVERY Study): Report 1 (, , , , , , , , , and ), In Am J Ophthalmol, . [bibtex]
[34]Severity of diabetic macular edema correlates with retinal vascular bed area on ultra-wide field fluorescein angiography. DAVE Study. (, , , , , , , , and ), In Retina, . [bibtex]
[33]Relationship Between Retinal Fractal Dimension and Non-perfusion in Diabetic Retinopathy on Ultra-Wide Field Fluorescein Angiography (, , , , , , , , , , , , and ), In Am J Ophthalmol, . [bibtex]
[32] Imaging of the eye ( and ), USPTO, , US10357150B2 with priority to GB201307990D0. [bibtex] [pdf]
[31] Imaging of the eye (, , , and ), USPTO, , US10349825B2 with priority to GB201307990D0. [bibtex] [pdf]
[30] Improvements in and Relating to Imaging of the Eye ( and ), EPO, , EP2800058B2 with priority to GB201307990D0. [bibtex] [pdf]
2018
[29] A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis (, , , , , and ), In J Med Syst, volume 42, . [bibtex] [url] [doi]
[28] Changes in retinal ischaemic index correlate with recalcitrant macular oedema in retinal vein occlusion: WAVE study (, , , , and ), In Br J Ophthalmol, BMJ Publishing Group Ltd, . [bibtex] [url] [doi]
[27]A Graph Cut Approach to Artery/Vein Classification in Ultra-Widefield Scanning Laser Ophthalmoscopy (, , , , and ), In IEEE Trans Med Imag, volume 37, . [bibtex] [doi]
[26] Precise Measurement of Retinal Vascular Bed Area and Density on Ultra-wide Fluorescein Angiography in Normal Subjects (, , , , , and ), In Am J Ophthalmol, Elsevier, volume 188, . [bibtex] [url] [doi]
[25] Comparison of subjective assessment and precise quantitative assessment of lesion distribution in diabetic retinopathy (, , , , , , and ), In JAMA Ophthalmology, volume 136, . [bibtex] [url] [doi]
[24] Ultra-Wide-Field Fluorescein Angiography-Guided Normalization of Ischemic Index Calculation in Eyes With Retinal Vein Occlusion (, , , , , , and ), In Invest. Ophthalmol. Vis. Sci., volume 59, . [bibtex] [url]
2017
[23] Distribution of Nonperfusion Area on Ultra-widefield Fluorescein Angiography in Eyes With Diabetic Macular Edema: DAVE Study (, , , , , , , , and ), In Am J Ophthalmol, volume 180, . [bibtex] [url] [doi]
[22] Combined high contrast and wide field of view in the scanning laser ophthalmoscope through dual detection of light paths (, , and ), In Journal of Biomedical Optics, volume 22, . [bibtex] [url] [doi]
[21] Choroidal vascular abnormalities by UWF ICGA in central serous chorioretinopathy (, , and ), In Acta Ophthalmologica, Wiley, volume 95, . [bibtex] [url] [doi]
[20] Hemorrhage and/or Microaneurysm Severity and Count in Ultrawide Field Images and Early Treatment Diabetic Retinopathy Study Photography (, , , , , , , and ), In Ophthalmology, volume 124, . [bibtex] [url] [doi]
2016
[19] Regional Image Features Model for Automatic Classification between Normal and Glaucoma in Fundus and Scanning Laser Ophthalmoscopy Images (, , , , , , and ), In J Med Syst, volume 40, . [bibtex] [url] [doi]
[18] Ultra-widefield Imaging of the Peripheral Retinal Vasculature in Normal Subjects (, , , , and ), In Ophthalmology, volume 123, . [bibtex] [url] [doi]
[17]Measuring the precise area of peripheral retinal non-perfusion using ultra-widefield imaging and its correlation with the ischaemic index (, , , , and ), In Br J Ophthalmol, volume 100, . [bibtex] [doi]
[16]Image processing ( and ), Patent Pending, , 20170032502. [bibtex]
2015
[15] Application of a wide-field phantom eye for optical coherence tomography and reflectance imaging (, , , and ), In J Mod Optics, volume 62, . [bibtex] [url] [doi]
[14] Supplement 173: Wide Field Ophthalmic Photography Image Storage SOP Classes (), DICOM Work Item 2013-12-A undertaken by WG 9 (Ophthalmology), . [bibtex] [pdf]
[13]Retinal Area Detector From Scanning Laser Ophthalmoscope Images for Diagnosing Retinal Diseases (, , , and ), In IEEE J Biomed Health Inform, volume 19, . [bibtex] [doi]
[12] Assessment of Accuracy and Precision of Quantification of Ultra-Widefield Images (, , , and ), In Ophthalmology, volume 122, . [bibtex] [url] [doi]
[11]Not All Retina Is Created Equal: Metabolic Quantification of Ultra-Widefield Images (, , , and ), In Ophthalmology, volume 122, . [bibtex]
[10]Diabetic Retinopathy Severity and Peripheral Lesions Are Associated with Nonperfusion on Ultrawide Field Angiography (, , , , , , , and ), In Ophthalmology, volume 122, . [bibtex]
[9]Improvements in and relating to imaging of the eye (, , , and ), Patent Pending, , WO2015GB51301. [bibtex]
2014
[8]Precise montaging and metric quantification of retinal surface area from ultra-widefield fundus photography and fluorescein angiography. (, , , , , and ), In Ophthalmic Surg Lasers Imaging Retina, volume 45, . [bibtex] [doi]
[7]Quantification of Ultra-Widefield Retinal Images (, , , and ), In Retina Today, . [bibtex]
[6] Superpixel Based Retinal Area Detection in SLO Images (, , , and ), In Computer Vision and Graphics (LJ Chmielewski, R Kozera, B-S Shin, KW Wojciechowski, eds.), Springer, volume 8671, . [bibtex] [url] [doi]
[5] Blood vessel segmentation and width estimation in ultra-wide field scanning laser ophthalmoscopy (, , , , , , , , and ), In Biomed. Opt. Express, OSA, volume 5, . [bibtex] [url] [doi]
[4]IMAGING OF THE EYE ( and ), Patent Pending, , US 20140327877. [bibtex]
2013
[3]Automatic Extraction of the Optic Disc Boundary for Detecting Retinal Diseases (, , , , and ), In Comp Graphics Imag (L Linsen, M Kampel, eds.), ACTA Press, volume 798, . [bibtex] [doi]
[2] Automatic extraction of retinal features from colour retinal images for glaucoma diagnosis: A review (, , and ), In Comput Med Imaging Graph, Elsevier Science, volume 37, . [bibtex] [url]
[1]Towards automatic detection of abnormal retinal capillaries in ultra-widefield-of-view retinal angiographic exams (, , , , and ), In Conf Proc IEEE Eng Med Biol Soc, . [bibtex] [doi]
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