Developing a Compact Robotic Needle Driver for MRI-Guided Breast Biopsy in Tight Environments

David Navarro-Alarcon; Satwinder Singh; Tianxue Zhang; Hayley Louise Chung; Kwun Wang Ng; Man Kiu Chow; Yunhui Liu

doi:10.1109/LRA.2017.2678542

Developing a Compact Robotic Needle Driver for MRI-Guided Breast Biopsy in Tight Environments

David Navarro-Alarcon^*
, Satwinder Singh
, Tianxue Zhang
, Hayley Louise Chung
, Kwun Wang Ng
, Man Kiu Chow
, Yunhui Liu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

In this letter, we present the design and development of a new robotic system for MRI-guided breast biopsy. The robot's structure is nonmagnetic, therefore, it can safely operate from within the scanner's magnetic bore; it has a compact Cartesian mechanism that allows it perform needle insertion tasks from both frontal and lateral directions inside an open bore scanner. A combination of piezoelectric and pneumatic actuators drive the motion of the proposed three degrees-of-freedom robot. To control the needle's insertion, we present an adaptive position regulator that uses the feedback from multiple sensors and that is robust to external disturbances. A detailed experimental study is presented to validate the performance and magnetic properties of the new mechanical prototype.

Original language	English
Article number	7872447
Pages (from-to)	1648-1655
Number of pages	8
Journal	IEEE Robotics and Automation Letters
Volume	2
Issue number	3
DOIs	https://doi.org/10.1109/LRA.2017.2678542
State	Published - Jul 2017
Externally published	Yes

Keywords

Breast biopsy
MRI robotics
mechanism design
medical robots and systems
motion control

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10.1109/LRA.2017.2678542

Cite this

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title = "Developing a Compact Robotic Needle Driver for MRI-Guided Breast Biopsy in Tight Environments",

abstract = "In this letter, we present the design and development of a new robotic system for MRI-guided breast biopsy. The robot's structure is nonmagnetic, therefore, it can safely operate from within the scanner's magnetic bore; it has a compact Cartesian mechanism that allows it perform needle insertion tasks from both frontal and lateral directions inside an open bore scanner. A combination of piezoelectric and pneumatic actuators drive the motion of the proposed three degrees-of-freedom robot. To control the needle's insertion, we present an adaptive position regulator that uses the feedback from multiple sensors and that is robust to external disturbances. A detailed experimental study is presented to validate the performance and magnetic properties of the new mechanical prototype.",

keywords = "Breast biopsy, MRI robotics, mechanism design, medical robots and systems, motion control",

author = "David Navarro-Alarcon and Satwinder Singh and Tianxue Zhang and Chung, \{Hayley Louise\} and Ng, \{Kwun Wang\} and Chow, \{Man Kiu\} and Yunhui Liu",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.",

year = "2017",

month = jul,

doi = "10.1109/LRA.2017.2678542",

language = "英语",

volume = "2",

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AU - Navarro-Alarcon, David

AU - Singh, Satwinder

AU - Zhang, Tianxue

AU - Chung, Hayley Louise

AU - Ng, Kwun Wang

AU - Chow, Man Kiu

AU - Liu, Yunhui

PY - 2017/7

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AB - In this letter, we present the design and development of a new robotic system for MRI-guided breast biopsy. The robot's structure is nonmagnetic, therefore, it can safely operate from within the scanner's magnetic bore; it has a compact Cartesian mechanism that allows it perform needle insertion tasks from both frontal and lateral directions inside an open bore scanner. A combination of piezoelectric and pneumatic actuators drive the motion of the proposed three degrees-of-freedom robot. To control the needle's insertion, we present an adaptive position regulator that uses the feedback from multiple sensors and that is robust to external disturbances. A detailed experimental study is presented to validate the performance and magnetic properties of the new mechanical prototype.

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KW - MRI robotics

KW - mechanism design

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KW - motion control

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ER -

Developing a Compact Robotic Needle Driver for MRI-Guided Breast Biopsy in Tight Environments

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Keywords

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