Keywords: Image Measurement [rss]
2018
[15] 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 British Journal of Ophthalmology, BMJ Publishing Group Ltd, 2018. [bib] [pdf] [doi]
2017
[14] Hemorrhage and/or Microaneurysm Severity and Count in Ultrawide Field Images and Early Treatment Diabetic Retinopathy Study Photography (P.S. Silva, H. El-Rami, R. Barham, A. Gupta, A. Fleming, J. van Hemert, J.D. Cavallerano, J.K. Sun, L.P. Aiello), In Ophthalmology, volume 124, 2017. [bib] [pdf] [doi]
[13] Distribution of Nonperfusion Area on Ultra-widefield Fluorescein Angiography in Eyes With Diabetic Macular Edema: DAVE Study (W. Fan, K. Wang, K. Ghasemi Falavarjani, M. Sagong, A. Uji, M. Ip, C.C. Wykoff, D.M. Brown, J. van Hemert, S.R. Sadda), In American Journal of Ophthalmology, volume 180, 2017. [bib] [pdf] [doi]
2016
[12] Image processing (D Clifton, A Fleming, J van Hemert), 20170032502, Patent Pending, 2016. (20170032502) [bib]
[11] Measuring the precise area of peripheral retinal non-perfusion using ultra-widefield imaging and its correlation with the ischaemic index (C.S. Tan, M.C. Chew, J. van Hemert, M.A. Singer, D. Bell, S.R. Sadda), In Br J Ophthalmol, volume 100, 2016. [bib] [pdf] [doi]
[10] Ultra-widefield Imaging of the Peripheral Retinal Vasculature in Normal Subjects (M. Singer, M. Sagong, J. van Hemert, L. Kuehlewein, D. Bell, S.R. Sadda), In Ophthalmology, volume 123, 2016. [bib] [pdf] [doi]
2015
[9] Improvements in and relating to imaging of the eye (J van Hemert, CC Wykoff, M Verhoek, D Brown, C Daniel), WO2015GB51301, Patent Pending, 2015. (WO2015GB51301) [bib]
[8] Diabetic Retinopathy Severity and Peripheral Lesions Are Associated with Nonperfusion on Ultrawide Field Angiography (P.S. Silva, A.J. Dela Cruz, M.G. Ledesma, J. van Hemert, A. Radwan, J.D. Cavallerano, L.M. Aiello, J.K. Sun, L.P. Aiello), In Ophthalmology, volume 122, 2015. [bib] [pdf] [doi]
[7] Not All Retina Is Created Equal: Metabolic Quantification of Ultra-Widefield Images (D.E. Croft, C.C. Wykoff, J. van Hemert, M. Verhoek, D.M. Brown), In Ophthalmology, volume 122, 2015. [bib] [pdf] [doi]
[6] Assessment of Accuracy and Precision of Quantification of Ultra-Widefield Images (M. Sagong, J. van Hemert, L.C. Olmos de Koo, C. Barnett, S.R. Sadda), In Ophthalmology, volume 122, 2015. [bib] [pdf] [doi]
[5] Supplement 173: Wide Field Ophthalmic Photography Image Storage SOP Classes (DICOM Standards Committee), DICOM Work Item 2013-12-A undertaken by WG 9 (Ophthalmology)., 2015. (DICOM Work Item 2013-12-A undertaken by WG 9 (Ophthalmology).) [bib] [pdf]
[4] Application of a wide-field phantom eye for optical coherence tomography and reflectance imaging (A. Corcoran, G. Muyo, J. van Hemert, A. Gorman, A.R. Harvey), In Journal of Modern Optics, volume 62, 2015. [bib] [pdf] [doi]
2014
[3] Imaging of the eye (J. van Hemert, M. Verhoek), US9,649,031, Patent, 2014. (US9,649,031) [bib]
[2] Quantification of Ultra-Widefield Retinal Images (D.E. Croft, C.C. Wykoff, D.M. Brown, J. van Hemert, M. Verhoek), In Retina Today, 2014. [bib] [pdf]
[1] Precise montaging and metric quantification of retinal surface area from ultra-widefield fundus photography and fluorescein angiography. (D.E. Croft, J. van Hemert, C.C. Wykoff, D. Clifton, M. Verhoek, A. Fleming, D.M. Brown), In Ophthalmic Surg Lasers Imaging Retina, volume 45, 2014. [bib] [doi]
Powered by bibtexbrowser