The Effect of Haptic Feedback on Efficiency and Safety During Preretinal Membrane Peeling Simulation

Anibal Francone; Jason Mingyi Huang; Ji Ma; Tsu-Chin Tsao; Jacob Rosen; Jean-Pierre Hubschman

doi:10.1167/tvst.8.4.2

The Effect of Haptic Feedback on Efficiency and Safety During Preretinal Membrane Peeling Simulation

Transl Vis Sci Technol. 2019 Jul 3;8(4):2. doi: 10.1167/tvst.8.4.2. eCollection 2019.

Authors

Anibal Francone¹, Jason Mingyi Huang¹, Ji Ma², Tsu-Chin Tsao², Jacob Rosen², Jean-Pierre Hubschman^{1

3

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Affiliations

¹ University of California Los Angeles Stein Eye Institute, Los Angeles, CA, USA.
² University of California Los Angeles Department of Mechanical and Aerospace Engineering, Los Angeles, CA, USA.
³ Center for Advanced Surgical and Interventional Technology (CASIT) at UCLA, Los Angeles, CA, USA.
⁴ Advanced Robotic Eye Surgery Laboratories, Stein Eye Institute, University of California Los Angeles, Los Angeles, CA, USA.

Abstract

Purpose: We determine whether haptic feedback improves surgical performance and outcome during simulated a preretinal membrane peeling procedure.

Methods: A haptic-enabled virtual reality preretinal membrane peeling simulator was developed using a surgical cockpit with two multifinger haptic devices. Six subjects (three trained retina surgeons and three nonsurgeons) performed the preretinal membrane peeling surgical procedure using two modes of operation: visual and haptic feedback, and visual feedback only.

Results: Task completion time, tool tip path trajectory, tool-retina collision force, and retinal damage were all reduced with haptic feedback used and compared to modes where haptic feedback was disabled.

Conclusions: Haptic feedback improves efficiency and safety during preretinal membrane peeling simulation.

Translational relevance: These findings highlight the potential benefit of haptic feedback for improving performance and safety of vitreoretinal surgery.

Keywords: feedback; haptic; retina; robotic; surgery.