An eye-tracking based robotic scrub nurse: proof of concept

Surg Endosc. 2021 Sep;35(9):5381-5391. doi: 10.1007/s00464-021-08569-w. Epub 2021 Jun 8.

Abstract

Background: Within surgery, assistive robotic devices (ARD) have reported improved patient outcomes. ARD can offer the surgical team a "third hand" to perform wider tasks and more degrees of motion in comparison with conventional laparoscopy. We test an eye-tracking based robotic scrub nurse (RSN) in a simulated operating room based on a novel real-time framework for theatre-wide 3D gaze localization in a mobile fashion.

Methods: Surgeons performed segmental resection of pig colon and handsewn end-to-end anastomosis while wearing eye-tracking glasses (ETG) assisted by distributed RGB-D motion sensors. To select instruments, surgeons (ST) fixed their gaze on a screen, initiating the RSN to pick up and transfer the item. Comparison was made between the task with the assistance of a human scrub nurse (HSNt) versus the task with the assistance of robotic and human scrub nurse (R&HSNt). Task load (NASA-TLX), technology acceptance (Van der Laan's), metric data on performance and team communication were measured.

Results: Overall, 10 ST participated. NASA-TLX feedback for ST on HSNt vs R&HSNt usage revealed no significant difference in mental, physical or temporal demands and no change in task performance. ST reported significantly higher frustration score with R&HSNt. Van der Laan's scores showed positive usefulness and satisfaction scores in using the RSN. No significant difference in operating time was observed.

Conclusions: We report initial findings of our eye-tracking based RSN. This enables mobile, unrestricted hands-free human-robot interaction intra-operatively. Importantly, this platform is deemed non-inferior to HSNt and accepted by ST and HSN test users.

Keywords: Assistive robotic devices; Eye-tracking; Gaze interactions; Robotic scrub nurse; Smart operating room; Surgery.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Animals
  • Eye-Tracking Technology
  • Laparoscopy*
  • Robotic Surgical Procedures*
  • Robotics*
  • Swine
  • Task Performance and Analysis