Alert button
Picture for Jorge Cuadros

Jorge Cuadros

Alert button

Discovering novel systemic biomarkers in photos of the external eye

Jul 19, 2022
Boris Babenko, Ilana Traynis, Christina Chen, Preeti Singh, Akib Uddin, Jorge Cuadros, Lauren P. Daskivich, April Y. Maa, Ramasamy Kim, Eugene Yu-Chuan Kang, Yossi Matias, Greg S. Corrado, Lily Peng, Dale R. Webster, Christopher Semturs, Jonathan Krause, Avinash V. Varadarajan, Naama Hammel, Yun Liu

Figure 1 for Discovering novel systemic biomarkers in photos of the external eye
Figure 2 for Discovering novel systemic biomarkers in photos of the external eye
Figure 3 for Discovering novel systemic biomarkers in photos of the external eye
Viaarxiv icon

Detecting hidden signs of diabetes in external eye photographs

Nov 23, 2020
Boris Babenko, Akinori Mitani, Ilana Traynis, Naho Kitade, Preeti Singh, April Maa, Jorge Cuadros, Greg S. Corrado, Lily Peng, Dale R. Webster, Avinash Varadarajan, Naama Hammel, Yun Liu

Figure 1 for Detecting hidden signs of diabetes in external eye photographs
Figure 2 for Detecting hidden signs of diabetes in external eye photographs
Figure 3 for Detecting hidden signs of diabetes in external eye photographs
Figure 4 for Detecting hidden signs of diabetes in external eye photographs
Viaarxiv icon

Predicting Risk of Developing Diabetic Retinopathy using Deep Learning

Aug 10, 2020
Ashish Bora, Siva Balasubramanian, Boris Babenko, Sunny Virmani, Subhashini Venugopalan, Akinori Mitani, Guilherme de Oliveira Marinho, Jorge Cuadros, Paisan Ruamviboonsuk, Greg S Corrado, Lily Peng, Dale R Webster, Avinash V Varadarajan, Naama Hammel, Yun Liu, Pinal Bavishi

Figure 1 for Predicting Risk of Developing Diabetic Retinopathy using Deep Learning
Figure 2 for Predicting Risk of Developing Diabetic Retinopathy using Deep Learning
Figure 3 for Predicting Risk of Developing Diabetic Retinopathy using Deep Learning
Figure 4 for Predicting Risk of Developing Diabetic Retinopathy using Deep Learning
Viaarxiv icon

Predicting optical coherence tomography-derived diabetic macular edema grades from fundus photographs using deep learning

Oct 18, 2018
Avinash Varadarajan, Pinal Bavishi, Paisan Raumviboonsuk, Peranut Chotcomwongse, Subhashini Venugopalan, Arunachalam Narayanaswamy, Jorge Cuadros, Kuniyoshi Kanai, George Bresnick, Mongkol Tadarati, Sukhum Silpa-archa, Jirawut Limwattanayingyong, Variya Nganthavee, Joe Ledsam, Pearse A Keane, Greg S Corrado, Lily Peng, Dale R Webster

Figure 1 for Predicting optical coherence tomography-derived diabetic macular edema grades from fundus photographs using deep learning
Figure 2 for Predicting optical coherence tomography-derived diabetic macular edema grades from fundus photographs using deep learning
Figure 3 for Predicting optical coherence tomography-derived diabetic macular edema grades from fundus photographs using deep learning
Figure 4 for Predicting optical coherence tomography-derived diabetic macular edema grades from fundus photographs using deep learning
Viaarxiv icon

Deep Learning for Automated Quality Assessment of Color Fundus Images in Diabetic Retinopathy Screening

Mar 07, 2017
Sajib Kumar Saha, Basura Fernando, Jorge Cuadros, Di Xiao, Yogesan Kanagasingam

Figure 1 for Deep Learning for Automated Quality Assessment of Color Fundus Images in Diabetic Retinopathy Screening
Figure 2 for Deep Learning for Automated Quality Assessment of Color Fundus Images in Diabetic Retinopathy Screening
Figure 3 for Deep Learning for Automated Quality Assessment of Color Fundus Images in Diabetic Retinopathy Screening
Figure 4 for Deep Learning for Automated Quality Assessment of Color Fundus Images in Diabetic Retinopathy Screening
Viaarxiv icon