Miniaturized robotic end-effector with piezoelectric actuation and fiber optic sensing for minimally invasive cardiac procedures - Robotics Institute Carnegie Mellon University

Miniaturized robotic end-effector with piezoelectric actuation and fiber optic sensing for minimally invasive cardiac procedures

E. Aranda-Michel, J. Yi, J. Wirekoh, N. Kumar, C. Riviere, D. Schwartzman, and Y.-L. Park
Journal Article, IEEE Sensors Journal, Vol. 18, No. 12, pp. 4961 - 4968, June, 2018

Abstract

Each year 35 000 cardiac ablation procedures are performed to treat atrial fibrillation through the use of catheter systems. The success rate of this treatment is highly dependent on the force which the catheter applies on the heart wall. If the magnitude of the applied force is much higher than a certain threshold the tissue perforates, whereas if the force is lower than this threshold the lesion size may be too large and is inconsistent. Furthermore, studies have shown large variability in the applied force from trained physicians during treatment, suggesting that although there might be patient-specific differences, physicians are unable to manually regulate the levels of the force at the site of treatment. Current catheter systems do not provide the physicians with active means for contact force control and are only at most aided by visual feedback of the forces measured in situ. This paper discusses a novel design of a robotic end-effector that integrates mechanisms of sensing and actively controlling of the applied forces into a miniaturized compact form. The required specifications for design and integration were derived from the current application under investigation. An off-the-shelf miniature piezoelectric motor was chosen for actuation, and a force sensing solution was developed to meet the specifications. Experimental characterization of the actuator and the force sensor within the integrated setup show compliance with the specifications and pave the way for future experimentation where closed-loop control of the system can be implemented according to the contact force control strategies for the application.

BibTeX

@article{Aranda-Michel-2018-120584,
author = {E. Aranda-Michel and J. Yi and J. Wirekoh and N. Kumar and C. Riviere and D. Schwartzman and Y.-L. Park},
title = {Miniaturized robotic end-effector with piezoelectric actuation and fiber optic sensing for minimally invasive cardiac procedures},
journal = {IEEE Sensors Journal},
year = {2018},
month = {June},
volume = {18},
number = {12},
pages = {4961 - 4968},
}