[6] | Ultra-Wide-Field Fluorescein Angiography-Guided Normalization of Ischemic Index Calculation in Eyes With Retinal Vein Occlusion (K Wang, K Ghasemi Falavarjani, MG Nittala, M Sagong, CC Wykoff, J van Hemert, M Ip, SR Sadda), In Invest. Ophthalmol. Vis. Sci., volume 59, 2018.
[bib] [pdf] |
[5] | Comparison of subjective assessment and precise quantitative assessment of lesion distribution in diabetic retinopathy (C Sears, MG Nittala, C Jayadev, M Verhoek, A Fleming, J van Hemert, I Tsui, SriniVas RS), In JAMA Ophthalmology, volume 136, 2018.
[bib] [pdf] [doi] |
[4] | Precise Measurement of Retinal Vascular Bed Area and Density on Ultra-wide Fluorescein Angiography in Normal Subjects (W Fan, A Uji, E Borrelli, M Singer, M Sagong, J van Hemert, SR Sadda), In Am J Ophthalmol, Elsevier, volume 188, 2018.
[bib] [pdf] [doi] |
[3] | A Graph Cut Approach to Artery/Vein Classification in Ultra-Widefield Scanning Laser Ophthalmoscopy (E Pellegrini, G Robertson, T MacGillivray, J van Hemert, G Houston, E Trucco), In IEEE Trans Med Imag, volume 37, 2018.
[bib] [doi] |
[2] | Changes in retinal ischaemic index correlate with recalcitrant macular oedema in retinal vein occlusion: WAVE study (S Kwon, CC Wykoff, DM Brown, J van Hemert, W Fan, SR Sadda), In Br J Ophthalmol, BMJ Publishing Group Ltd, 2018.
[bib] [pdf] [doi] |
[1] | A Novel Adaptive Deformable Model for Automated Optic Disc and Cup Segmentation to Aid Glaucoma Diagnosis (MS Haleem, L Han, J van Hemert, B Li, A Fleming, LR Pasquale, BJ Song), In J Med Syst, volume 42, 2018.
[bib] [pdf] [doi] |