Synchronization of epicardial crawling robot with heartbeat and respiration for improved safety and efficiency of locomotion
Abstract
Background
HeartLander is a miniature mobile robot designed to navigate over the epicardium of the beating heart for minimally invasive therapy. This paper presents a technique to decrease slippage and improve locomotion efficiency by synchronizing the locomotion with the intrapericardial pressure variations of the respiration and heartbeat cycles.
Methods
Respiratory and heartbeat phases were detected in real time using a chest-mounted accelerometer during locomotion in a porcine model in vivo. Trials were conducted over the lateral aspect of the heart surface to test synchronized locomotion against an unsynchronized control.
Results
Offline evaluation showed that the respiration and heartbeat algorithms had accuracies of 100% and 88%, respectively. Synchronized trials exhibited significantly lower friction, higher efficiency, and greater total distance traveled than control trials.
Conclusion
Synchronization of the locomotion of HeartLander with respiration and heartbeat is feasible and results in safer and more efficient travel on the beating heart.
BibTeX
@article{Patronik-2012-7451,author = {Nicholas A. Patronik and Takeyoshi Ota and Marco A. Zenati and Cameron Riviere},
title = {Synchronization of epicardial crawling robot with heartbeat and respiration for improved safety and efficiency of locomotion},
journal = {International Journal of Medical Robotics and Computer Assisted Surgery},
year = {2012},
month = {March},
volume = {8},
number = {1},
pages = {97 - 106},
keywords = {robot, minimally invasive, beating heart, epicardial therapy, medical robotics},
}