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Abstract #99219 Published in IGR 22-4
Eye MG 3D Application - A comprehensive ocular anatomy and pathophysiology 3D atlas with real-time true color confocal images to enhance ophthalmology education and e-Counseling
Ramesh PV; Devadas AK; Devadas AK; Devadas AK; Joshua T; Joshua T; Joshua T; Ray P; Ray P; Ray P; Ray P; Ramesh SV; Raj PM; Raj PM; Ramesh MK; Ramesh MK; Ramesh MK; Ramesh MK; Rajasekaran R; Rajasekaran R; Rajasekaran R; Rajasekaran RIndian Journal of Ophthalmology 2022; 70: 1388-1394
Concepts pertaining to ophthalmology have lots of theoretical frameworks. Neophyte residents and novice surgeons may have to mentally visualize these concepts during the initial days of training. Only a powerful cognitive tool such as a three-dimensional (3D) eyeball model, with real-time TrueColor confocal images (and not animated images or models), can fill in these intellective mental gaps. Giving the users (i.e., residents and students) the power to choose and visualize various parts of the eye, with multiple magnitudes of zoom, is mandatory for optimal e-learning. To make ophthalmic concept learning better, we have developed a 3D app Eye MG 3D (patent pending) comprising ocular anatomy and pathophysiological 3D models, built on an advanced interactive 3D touch interface, by using patient's real-time confocal images to serve as a new-age pedagogical tool and e-counseling. According to our knowledge, there are no applications to date that incorporate real-time high-resolution multimodal confocal fundus images and photoreal visuals for interactive and immersive 3D learning.
Medical Officer, Department of Glaucoma and Research, Mahathma Eye Hospital Private Limited, Trichy, Tamil Nadu, India.
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