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Three-dimensional telesurgery and remote proctoring over a 5G network

Edward S. Lu, Vincent S. Reppucci, S.K. Steven Houston, Ashley Kras, John B. Miller

2021Digital Journal of Ophthalmology106 citationsDOIOpen Access PDF

Abstract

PURPOSE: To present 2 cases of vitreoretinal surgery performed on a three-dimensional (3D) heads-up display surgical platform with real-time transfer of 3D video over a fifth-generation (5G) cellular network. METHODS: An epiretinal membrane peel and tractional retinal detachment repair performed at Massachusetts Eye and Ear in April 2019 were broadcast live to the Verizon 5G Lab in Cambridge, MA. RESULTS: Both surgeries were successful. The heads-up digital surgery platform, combined with a 5G network, allowed telesurgical transfer of high-quality 3D vitreoretinal surgery with minimal degradation. Average end-to-end latency was 250 ms, and average round-trip latency was 16 ms. Fine surgical details were observed remotely by a proctoring surgeon and trainee, with real-time communication via mobile phone. CONCLUSIONS: This pilot study represents the first successful demonstration of vitreoretinal surgery transmitted over a 5G network. Telesurgery has the potential to enhance surgical education, provide intraoperative consultation and guidance from expert proctors, and improve patient outcomes, especially in remote and low-resource areas.

Topics & Concepts

TelemedicineMedicineComputer scienceMultimediaEconomicsHealth careEconomic growthRetinal and Macular SurgeryTelemedicine and Telehealth ImplementationSurgical Simulation and Training
Three-dimensional telesurgery and remote proctoring over a 5G network | Litcius