A Submillimeter Continuous Variable Stiffness Catheter for Compliance Control

Jonas Lussi; Michael Mattmann; Semih Sevim; Fabian Grigis; Carmela De Marco; Christophe Chautems; Salvador Pané; Josep Puigmartí‐Luis; Quentin Boehler; Bradley J. Nelson

doi:10.1002/advs.202101290

Advanced Science (Sep 2021)

A Submillimeter Continuous Variable Stiffness Catheter for Compliance Control

Jonas Lussi,
Michael Mattmann,
Semih Sevim,
Fabian Grigis,
Carmela De Marco,
Christophe Chautems,
Salvador Pané,
Josep Puigmartí‐Luis,
Quentin Boehler,
Bradley J. Nelson

Affiliations

Jonas Lussi: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Michael Mattmann: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Semih Sevim: Institute of Chemical and Bioengineering ETH Zurich Vladimir Prelog Weg 1 Zurich CH‐8093 Switzerland
Fabian Grigis: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Carmela De Marco: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Christophe Chautems: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Salvador Pané: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Josep Puigmartí‐Luis: Departament de Ciència dels Materials i Química Física Institut de Química Teòrica i Computacional Barcelona 08028 Spain
Quentin Boehler: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland
Bradley J. Nelson: Institute of Robotics and Intelligent Systems ETH Zurich Zurich CH‐8092 Switzerland

DOI: https://doi.org/10.1002/advs.202101290
Journal volume & issue: Vol. 8, no. 18
pp. n/a – n/a

Abstract

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Abstract Minimally invasive robotic surgery often requires functional tools that can change their compliance to adapt to the environment and surgical needs. This paper proposes a submillimeter continuous variable stiffness catheter equipped with a phase‐change alloy that has a high stiffness variation in its different states, allowing for rapid compliance control. Variable stiffness is achieved through a variable phase boundary in the alloy due to a controlled radial temperature gradient. This catheter can be safely navigated in its soft state and rigidified to the required stiffness during operation to apply a desired force at the tip. The maximal contact force that the catheter applies to tissue can be continuously modified by a factor of 400 (≈20 mN–8 N). The catheter is equipped with a magnet and a micro‐gripper to perform a fully robotic ophthalmic minimally invasive surgery on an eye phantom by means of an electromagnetic navigation system.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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