Human-Robot Interaction in Retinal Surgery: A Comparative Study of Serial and Parallel Cooperative Robots

Overview

Journal ROMAN

Publisher IEEE

Specialty Biomedical Engineering

Date 2024 Feb 13

PMID 38347956

Authors

Botao Zhao

Mojtaba Esfandiari

David E Usevitch

Peter Gehlbach

Iulian Iordachita

Affiliations

Soon will be listed here.

Abstract

Cooperative robots for intraocular surgery allow surgeons to perform vitreoretinal surgery with high precision and stability. Several robot structural designs have shown capabilities to perform these surgeries. This research investigates the comparative performance of a serial and parallel cooperative-controlled robot in completing a retinal vessel-following task, with a focus on human-robot interaction performance and user experience. Our results indicate that despite differences in robot structure and interaction forces and torques, the two robots exhibited similar levels of performance in terms of general robot-to-patient interaction and average operating time. These findings have implications for the development and implementation of surgical robotics, suggesting that both serial and parallel cooperative-controlled robots can be effective for vitreoretinal surgery tasks.

Citing Articles

Cooperative vs. Teleoperation Control of the Steady Hand Eye Robot with Adaptive Sclera Force Control: A Comparative Study.

Esfandiari M, Kim J, Zhao B, Amirkhani G, Hadi M, Gehlbach P IEEE Int Conf Robot Autom. 2024; 2024:8209-8215.

PMID: 39421218 PMC: 11486505. DOI: 10.1109/icra57147.2024.10611084.

Steady-Hand Eye Robot 3.0: Optimization and Benchtop Evaluation for Subretinal Injection.

Alamdar A, Usevitch D, Wu J, Taylor R, Gehlbach P, Iordachita I IEEE Trans Med Robot Bionics. 2024; 6(1):135-145.

PMID: 38304756 PMC: 10831842. DOI: 10.1109/tmrb.2023.3336975.

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