MP-453092-1 FEASIBILITY OF REMOTE MAPPING AND CLINICAL SUPPORT USING NOVEL SOFTWARE

Abstract

Covid redefined how the world functions. The electrophysiology (EP) community identified multiple needs that arose due to this paradigm and redefined workflows. The geographic paucity of experienced clinical mapping support was a crucial issue that limited the worldwide adoption of complex ablation procedures. To ascertain the feasibility and safety of utilizing a novel software for remote mapping and remote clinical support for all spectrums of cardiac ablation procedures and to compare the adoption of ablation technology in that geography. Ablation procedures performed at Metromed International Cardiac Centre (MICC), India were included in this early feasibility analysis (EFA). All procedures were performed by a single EP operator. Remote Clinical support was provided by an EP physician (primary operator's sibling) in the USA. All mapping was performed by an experienced mapper from a remote location 400 miles away from the primary EP operator in India. The mapping system utilized was Ensite Precision with SJM Connect software. 300 contiguous ablation procedures from 2020 to 2022 were included in this EFA. The proprietory SJM Connect software allows remote access to the Ensite console via a secured connection. The software requires the operator to be granted access to the Ensite console via a permission request that must be acknowledged on the Ensite Console. The software will then allow the remote operator to levels of access to the system, view-only access, or complete control of the console to provide full remote support. Communication occurs between the remote user and the console via a chat function and over a voice call. This remote connection can be terminated at any time from either the console or the remote operator. There is no PHI displayed. Results detailing case demographics and acute procedural success and safety will be presented. Results comparing the adoption of ablation technology with the previous 3 years in this geography will be presented. This EFA demonstrates the safety and efficacy of using remote clinical support and remote mapping for ablation procedures. This opens a world of possibilities including the expansion of ablation technology to all corridors of the world with experienced clinical and mapping support connecting the EP community on a worldwide platform. Additional studies and strategies are needed to further understand the implication of remote support algorithms in bridging the healthcare gaps in the field of cardiac EP.