High-Performance Continuous Hydraulic Motor for MR Safe Robotic Teleoperation

Dong, Ziyang; Zhang, Dalin; Lee, Kit-Hang; Fang, Ge; Tang, Wai Lun; Chang, Hing‐Chiu; Chan, Danny Tat Ming; Kwok, Ka‐Wai

doi:10.1109/lra.2019.2899189

“…A feasible solution is to place the power source outside the MRI operating room and transmitting the power to the operating room through MRI-compatible mediums. For example, Ka-Wai Kwok et al (University of Hong Kong) designed a hydraulic Interventional electrophysiological robot [57,66,67], and Abdelaziz et al (Imperial College, London) designed a pneumatic interventional robot [68]. The bodies and internal transmission parts of these robots are made of plastic or other materials compatible with the MRI environment.…”

Section: Mri Compatiblementioning

confidence: 99%

Remote Vascular Interventional Surgery Robotics: A Literature Review

Mei¹

2022

Preprint

0

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Interventional doctors are exposed to radiation hazards during the operation and endure high work intensity. Remote vascular interventional surgery robotics is a hot research field that can not only protect the health of interventional doctors, but also improve accuracy and efficiency of surgeries. However, the current vascular interventional robots still have many shortcomings to be improved. This article introduces the mechanical structure characteristics of various fields of vascular interventional therapy surgical robots, discusses the current key features of vascular interventional surgical robotics in force sensing, haptic feedback, and control methods, summarizes current frontiers about autonomous surgery, long geographic distances remote surgery and MRI-compatible structures. Finally, combined with the current research status of vascular interventional surgery robots, this article analyzes the development directions and puts forward a vision for the future vascular interventional surgery robots.

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“…For instance, Kwok et al of the University of Hong Kong designed a hydraulic interventional EP robot (Fig. 17a) (59,68,69), and Abdelaziz et al of Imperial College London designed a pneumatic interventional robot (Fig. 17b) (70).…”

Section: Mri Compatibilitymentioning

confidence: 99%

Remote Vascular Interventional Surgery Robotics: A Literature Review

Zhao¹,

Mei²,

Mao³

et al. 2022

Preprint

0

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Interventional doctors are exposed to radiation hazards during the operation and endure high work intensity. Remote vascular interventional surgery robotics is a hot research field that can not only protect the health of interventional doctors, but also improve accuracy and efficiency of surgeries. However, the current vascular interventional robots still have many shortcomings to be improved. This article introduces the mechanical structure characteristics of various fields of vascular interventional therapy surgical robots, discusses the current key features of vascular interventional surgical robotics in force sensing, haptic feedback, and control methods, summarizes current frontiers about autonomous surgery, long geographic distances remote surgery and MRI-compatible structures. Finally, combined with the current research status of vascular interventional surgery robots, this article analyzes the development directions and puts forward a vision for the future vascular interventional surgery robots.

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“…Designing an MMAMbased hydraulic joint can then help to build compact custom systems for single use or limited number of uses, as often considered in the medical field. In terms of compactness, this solution is here interesting when compared to designs based on rolling diaphragms [13,15], as these diaphragms are limited in terms of stroke for a given diameter. Another advantage of the proposed component is to ease the design of devices with specific kinematic architectures, for instance with spatial linkages as considered in parallel mechanisms, as the relative position of rotation axes is ensured by manufacturing.…”

Section: Characterization Of the Componentmentioning

confidence: 99%

“…Hydraulics are well adapted to the actuation of 3D printed devices. In [13][14][15], hydraulic transmissions were efficiently used to perform actuation in a medical context. In terms of design, it is possible to benefit from the high power density of hydraulics and the possibility to have long transmission lengths to implement remote manipulation even in a challenging environment such as the MRI [16].…”

Section: Introductionmentioning

confidence: 99%

Design and Experimental Characterization of Hydraulically Actuated Revolute Joint Based on Multimaterial Additive Manufacturing

Pfeil

¹

,

Siegfarth²,

Pusch³

et al. 2021

Journal of Mechanical Design

2

0

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Design of fluidic actuators remain challenging in specific contexts such as the medical field, when solutions have for instance to be compatible with the stringent requirements of magnetic resonance imaging. In this paper, an innovative design of hydraulically-actuated revolute joint is introduced. The design originality is linked to the use of multimaterial additive manufacturing for its production. Hydraulic actuation and polymer manufacturing are selected to have compatibility with the medical context. A design taking advantage of the process capabilities is proposed. The proposed component associates a large stroke compliant revolute joint and miniature pistons. An helical rack-and-pinion mechanism is integrated to the compliant joint to control the joint rotation. A specific gear geometry is elaborated to minimize the joint size. It is experimentally characterized in terms of range of motion, stiffness and available torque, to discuss the suitability of the component as a fluidic actuator. The component offers an interesting compactness, range of motion and the process is shown to be adequate for the design of functional systems.

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High-Performance Continuous Hydraulic Motor for MR Safe Robotic Teleoperation

Cited by 46 publications

References 21 publications

Remote Vascular Interventional Surgery Robotics: A Literature Review

Remote Vascular Interventional Surgery Robotics: A Literature Review

Remote Vascular Interventional Surgery Robotics: A Literature Review

Design and Experimental Characterization of Hydraulically Actuated Revolute Joint Based on Multimaterial Additive Manufacturing

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