BACKGROUND AND PURPOSE: Existing imaging modalities of urologic pathology are limited by three-dimensional (3D) representation on a two-dimensional screen. We present 3D-holoscopic imaging as a novel method of representing Digital Imaging and Communications in Medicine data images taken from CT and MRI to produce 3D-holographic representations of anatomy without special eyewear in natural light. 3D-holoscopic technology produces images that are true optical models. This technology is based on physical principles with duplication of light fields. The 3D content is captured in real time with the content viewed by multiple viewers independently of their position, without 3D eyewear. METHODS: We display 3D-holoscopic anatomy relevant to minimally invasive urologic surgery without the need for 3D eyewear. RESULTS: The results have demonstrated that medical 3D-holoscopic content can be displayed on commercially available multiview auto-stereoscopic display. CONCLUSION: The next step is validation studies comparing 3D-Holoscopic imaging with conventional imaging.
BACKGROUND AND PURPOSE: Existing imaging modalities of urologic pathology are limited by three-dimensional (3D) representation on a two-dimensional screen. We present 3D-holoscopic imaging as a novel method of representing Digital Imaging and Communications in Medicine data images taken from CT and MRI to produce 3D-holographic representations of anatomy without special eyewear in natural light. 3D-holoscopic technology produces images that are true optical models. This technology is based on physical principles with duplication of light fields. The 3D content is captured in real time with the content viewed by multiple viewers independently of their position, without 3D eyewear. METHODS: We display 3D-holoscopic anatomy relevant to minimally invasive urologic surgery without the need for 3D eyewear. RESULTS: The results have demonstrated that medical 3D-holoscopic content can be displayed on commercially available multiview auto-stereoscopic display. CONCLUSION: The next step is validation studies comparing 3D-Holoscopic imaging with conventional imaging.
Authors: Inderbir S Gill; Mukul B Patil; Andre Luis de Castro Abreu; Casey Ng; Jie Cai; Andre Berger; Manuel S Eisenberg; Masahiko Nakamoto; Osamu Ukimura; Alvin C Goh; Duraiyah Thangathurai; Monish Aron; Mihir M Desai Journal: J Urol Date: 2012-01-15 Impact factor: 7.450