Microinterventional system for robot-assisted gonioscopic surgery– technical feasibility and preclinical evaluation in synthetic eye models

Gautam Kamthan, Thijs Meenink, Isabella C. Morgan, Andrew A. Harvey, Jorge L. Lince, Jorrit Smit, Maarten Beelen, James C. Tsai, Marc D. de Smet, Tsontcho Ianchulev

Research output: Contribution to journalArticlepeer-review

Abstract

Background: Preclinical technical feasibility study of robot-assisted microinvasive glaucoma surgery using a novel ophthalmic robot-assisted surgery system. Methods: Feasibility was assessed in synthetic eye models in two stages: Stage I, nonimplantable robot-assisted goniotomy; and Stage II, robot-assisted stent implantation using a trabecular bypass stent. Robot-assisted interventions were subsequently compared to the manual approach. Results: Stage I: Two surgeons completed 10 trials each of ab-interno sectoral goniotomy with and without robotic assistance for at least 3 clock hours using a standard goniotomy knife and more than 10 clock hours of extended goniotomy using a flexible, guided goniotomy instrument. Stage II: Trabecular bypass stent deployment was successfully achieved in 100% of the attempts with and without robotic assistance. Surgical time was recorded and compared between the robotic-assisted and the manual approach. Conclusions: A system for robot-assisted microinvasive glaucoma surgery can successfully achieve implantable and nonimplantable interventions in the anterior segment. This is the first known demonstration of the feasibility of robot-assisted glaucoma surgery.

Original languageEnglish
Article number324
JournalBMC Ophthalmology
Volume24
Issue number1
DOIs
StatePublished - Dec 2024

Keywords

  • Glaucoma
  • Precision
  • Robot
  • Tremor

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