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Erschienen in:
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2024 | OriginalPaper | Buchkapitel

Roller Design of the Delivery Mechanism of the Novel Endovascular Intervention Robot

verfasst von : Lingwu Meng, Shiqi Liu, Xiaoliang Xie, Zengguang Hou, Xiaohu Zhou

Erschienen in: Advances in Emerging Information and Communication Technology

Verlag: Springer Nature Switzerland

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Abstract

This study introduces a novel endovascular intervention robot, especially the delivery mechanism. It is a master-slave robot based on the finger delivery movement of the doctor and developed by the principle of bionics, which can realize the simultaneous translation and rotation motion. The roller design, including the structure and material, is very significant to realize the guidewire delivery function. The delivery mechanism’s mechanical structure and working principle are introduced first in this paper. Secondly, based on the appropriate constitutive model of rubber, the finite element method is used to analyze the influence of the rubber material property on the contact behavior and the friction-based driving force. We propose the indicators to evaluate the delivery performance of the robot. Finally, the simulation results provide an essential reference for selecting the proper outer material for the roller.

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Literatur
1.
J. Goyes, N.J. Gomez, V. Restrepo, H. Contreras, J. Villegas, W. Giraldo, J. Bedoya, J. Morales, E. Arias, Radiation exposure in a group of interventional cardiologists in a high volume pci center. Interv Cardio 10(5), 73–79 (2018)
2.
R. Dixon, V. Khiatani, J. Statler, E. Walser, M. Midia, D. Miller, G. Bartal, J. Collins, K. Gross, M. Stecker, Society of interventional radiology: Occupational back and neck pain and the interventional radiologist. J. Vasc. Interv. Radiol. 28(2), 195–199 (2017)CrossRef
3.
R. Beyar, L. Gruberg, D. Deleanu, A. Roguin, Y. Almagor, S. Cohen, G. Kumar, T. Wenderow, Remote-control percutaneous coronary interventions: Concept, validation, and first-in-humans pilot clinical trial. J. Am. Coll. Cardiol. 47(2), 296–300 (2006)CrossRef
4.
J.F. Granada, J.A. Delgado, M.P. Uribe, A. Fernandez, G. Blanco, M.B. Leon, G. Weisz, First-in-human evaluation of a novel robotic-assisted coronary angioplasty system. J. Am. Coll. Cardiol. Intv. 4(4), 460–465 (2011)CrossRef
5.
G. Weisz, D. Metzger, R. Caputo, J. Delgado, J. Marshall, G. Vetrovec, M. Reisman, R. Waksman, J. Granada, V. Novack, Safety and feasibility of robotic percutaneous coronary intervention: Precise (percutaneous robotically-enhanced coronary intervention) study. J. Am. Coll. Cardiol. 61(15) (2013)
6.
7.
J. Woo, H.-S. Song, H.-J. Cha, B.-J. Yi, Advantage of steerable catheter and haptic feedback for a 5-dof vascular intervention robot system. Appl. Sci. 9(20), 4305 (2019)CrossRef
8.
S. Guo, Y. Song, X. Yin, L. Zhang, T. Tamiya, H. Hirata, H. Ishihara, A novel robot-assisted endovascular catheterization system with haptic force feedback. IEEE Trans. Robot. 35(3), 685–696 (2019)CrossRef
9.
D. Kundrat, G. Dagnino, T.M. Kwok, M.E. Abdelaziz, W. Chi, A. Nguyen, C. Riga, G.-Z. Yang, An mr-safe endovascular robotic platform: Design, control, and ex-vivo evaluation. IEEE Trans. Biomed. Eng. 68(10), 3110–3121 (2021)CrossRef
10.
H. Yu, H. Wang, J. Chang, J. Niu, F. Wang, Y. Yan, H. Tian, J. Fang, H. Lu, A novel vascular intervention surgical robot based on force feedback and flexible clamping. Appl. Sci. 11(2), 611 (2021)CrossRef
11.
Q. Lu, Y. Shen, S. Xia, B. Chen, K. Wang, A novel universal endovascular robot for peripheral arterial stent–assisted angioplasty: Initial experimental results. Vasc. Endovasc. Surg. 54(7), 598–604 (2020)CrossRef
12.
H. Shen, C. Wang, L. Xie, S. Zhou, L. Gu, H. Xie, A novel remotecontrolled robotic system for cerebrovascular intervention. Int. J. Med. Robot. Comput. Assisted Surg. 14(6), e1943 (2018)CrossRef
13.
H. Shen, C. Wang, L. Xie, S. Zhou, L. Gu, H. Xie, A novel robotic system for vascular intervention: Principles, performances, and applications. Int. J. Comput. Assist. Radiol. Surg. 14(4), 671–683 (2019)CrossRef
14.
J. Zhou, Z. Mei, J. Miao, J. Mao, L. Wang, D. Wu, D. Sun, Y. Zhao, A remote-controlled robotic system with safety protection strategy based on force-sensing and bending feedback for transcatheter arterial chemoembolization. Micromachines 11(9), 805 (2020)CrossRef
15.
J. Chakravartti, S. Rao, Robotic assisted percutaneous coronary intervention: Hype or hope? J. Am. Heart Assoc. 8(13), e012743 (2019)CrossRef
16.
G. Hyeon-Cheol, Understanding the coronary bifurcation stenting. Korean Circ. J. 48(6), 481–491 (2018)CrossRef
17.
H.-L. Zhao, S.-Q. Liu, X.-H. Zhou, X.-L. Xie, Z.-G. Hou, Y.-J. Zhou, L.-S. Zhang, M.-J. Gui, J.-L. Wang, Design and performance evaluation of a novel vascular robotic system for complex percutaneous coronary interventions (2021 43rd Annual International Conference of the IEEE Engineering in Medicine Biology Society (EMBC), 2021), pp. 4679–4682
18.
R. Rivlin, Large elastic deformations of isotropic materials. i. Fundamental concepts. Philos. Transact. R. Soc. London. Series A, Math. Phys. Sci. 240(822), 459–490 (1948)
19.
W. Wang, T. Deng, S. Zhao, Determination for material constants of rubber mooney-rivlin model. Spec. Purp. Rubber Prod. 25(4), 8–10 (2004)
Metadaten
Titel
Roller Design of the Delivery Mechanism of the Novel Endovascular Intervention Robot
verfasst von
Lingwu Meng
Shiqi Liu
Xiaoliang Xie
Zengguang Hou
Xiaohu Zhou
Copyright-Jahr
2024
Buch
Advances in Emerging Information and Communication Technology

Print ISBN: 978-3-031-53236-8

Electronic ISBN: 978-3-031-53237-5

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-3-031-53237-5_19

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