Feasibility of Image-guided Navigation with Electromagnetic Tracking During Robot-assisted Sentinel Node Biopsy: A Prospective Study

Our study demonstrated that integration of navigation during robotic abdominopelvic surgeries is feasible. Navigation helped in effectively and safely reaching target sentinel nodes. Participating surgeons are willing to use this approach in future procedures and are confident it will improve decisi...

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Veröffentlicht in:	European urology 2024-08
Hauptverfasser:	Aguilera Saiz, Laura, Heerink, Wouter J., Groen, Harald C., Hiep, Marijn A.J., van der Poel, Henk G., Wit, Esther M.K., Nieuwenhuijzen, Jakko A., Roeleveld, Ton A., Vis, André N., Donswijk, Maarten L., van Leeuwen, Pim J., Ruers, Theo J.M.
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Schlagworte:	Electromagnetic tracking Image-guided surgical navigation Robot-assisted surgery Sentinel lymph node biopsy
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creator	Aguilera Saiz, Laura Heerink, Wouter J. Groen, Harald C. Hiep, Marijn A.J. van der Poel, Henk G. Wit, Esther M.K. Nieuwenhuijzen, Jakko A. Roeleveld, Ton A. Vis, André N. Donswijk, Maarten L. van Leeuwen, Pim J. Ruers, Theo J.M.
description	Our study demonstrated that integration of navigation during robotic abdominopelvic surgeries is feasible. Navigation helped in effectively and safely reaching target sentinel nodes. Participating surgeons are willing to use this approach in future procedures and are confident it will improve decisiveness. Image-guided surgical navigation (IGSN) can enhance surgical precision and safety. The expansion of minimally invasive surgery has increased the demand for integration of these navigation systems into robot-assisted surgery. Our objective was to evaluate the integration of electromagnetic tracking with IGSN in robot-assisted sentinel lymph node biopsy (SLNB). We conducted a prospective feasibility study to test the use of IGSN in SLNB. In total, 25 patients scheduled for SLNB at The Netherlands Cancer Institute were included (March 2022 to March 2023). SLNB using IGSN was performed using a standardised technique with a da Vinci robot (Intuitive Surgical, Sunnyvale, CA, USA) in four-arm configuration. Feasibility was determined as the percentage of sentinel nodes (SNs) successfully identified via IGSN. Successful SN resection was defined as SNs correctly localised via navigation and validated ex vivo with a gamma probe. Surgeon feedback on the robot-assisted IGSN workflow was evaluated using the System Usability Scale (SUS). In accordance with the protocol, the first five patients were used for workflow optimisation, and the subsequent 20 patients were included in the analysis. IGSN led to successful identification of 91% (50/55) of the SNs. There were no complications associated with navigation. The surgeon feedback (SUS) was 60.9, with lowest scores reported for the user interface and workflow integration. IGSN during robot-assisted surgery was feasible and safe. The technique allowed identification and removal of predefined small pelvic lymph nodes. We carried out a study on the feasibility of imaging-guided navigation in robot-assisted prostate surgery. Our results show that this technique is feasible, safe, and effective.
doi_str_mv	10.1016/j.eururo.2024.07.022
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Navigation helped in effectively and safely reaching target sentinel nodes. Participating surgeons are willing to use this approach in future procedures and are confident it will improve decisiveness. Image-guided surgical navigation (IGSN) can enhance surgical precision and safety. The expansion of minimally invasive surgery has increased the demand for integration of these navigation systems into robot-assisted surgery. Our objective was to evaluate the integration of electromagnetic tracking with IGSN in robot-assisted sentinel lymph node biopsy (SLNB). We conducted a prospective feasibility study to test the use of IGSN in SLNB. In total, 25 patients scheduled for SLNB at The Netherlands Cancer Institute were included (March 2022 to March 2023). SLNB using IGSN was performed using a standardised technique with a da Vinci robot (Intuitive Surgical, Sunnyvale, CA, USA) in four-arm configuration. Feasibility was determined as the percentage of sentinel nodes (SNs) successfully identified via IGSN. Successful SN resection was defined as SNs correctly localised via navigation and validated ex vivo with a gamma probe. Surgeon feedback on the robot-assisted IGSN workflow was evaluated using the System Usability Scale (SUS). In accordance with the protocol, the first five patients were used for workflow optimisation, and the subsequent 20 patients were included in the analysis. IGSN led to successful identification of 91% (50/55) of the SNs. There were no complications associated with navigation. The surgeon feedback (SUS) was 60.9, with lowest scores reported for the user interface and workflow integration. IGSN during robot-assisted surgery was feasible and safe. The technique allowed identification and removal of predefined small pelvic lymph nodes. We carried out a study on the feasibility of imaging-guided navigation in robot-assisted prostate surgery. 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subjects	Electromagnetic tracking Image-guided surgical navigation Robot-assisted surgery Sentinel lymph node biopsy
title	Feasibility of Image-guided Navigation with Electromagnetic Tracking During Robot-assisted Sentinel Node Biopsy: A Prospective Study
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