Robot control by fluoroscopic guidance for minimally invasive spine procedures

Gabriela Corral; Luis Ibáñez; Charles Nguyen; Dan Stoianovici; Nassir Navab; Kevin Robert Cleary

doi:10.1016/j.ics.2004.03.336

Robot control by fluoroscopic guidance for minimally invasive spine procedures

Gabriela Corral, Luis Ibáñez, Charles Nguyen, Dan Stoianovici, Nassir Navab, Kevin Robert Cleary

Informatics 16 - Chair of Computer Aided Medical Procedures

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

7 Scopus citations

Abstract

This paper describes an algorithm for automatic needle placement using a six degree-of-freedom (DOF) robot during minimally invasive spine procedures. This automatic needle placement is achieved by a closed-loop position control of the robot end effector provided by computer vision. The term fluoroscopy servoing is given to this process since an X-ray fluoroscope is used as the visualization tool. A software application was developed to segment the needle in the X-ray images to find its position, which is then used as feedback to control the robot and move it to a desired target point. A cadaver study was performed to test the accuracy of this application. Twenty trials were performed and the robot reached the desired target point with an average distance error of 1.21 mm.

Original language	English
Pages (from-to)	509-514
Number of pages	6
Journal	International Congress Series
Volume	1268
Issue number	C
DOIs	https://doi.org/10.1016/j.ics.2004.03.336
State	Published - 1 Jun 2004

Keywords

Fluoroscopy servoing
Medical robotics
Needle tracking

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10.1016/j.ics.2004.03.336

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title = "Robot control by fluoroscopic guidance for minimally invasive spine procedures",

abstract = "This paper describes an algorithm for automatic needle placement using a six degree-of-freedom (DOF) robot during minimally invasive spine procedures. This automatic needle placement is achieved by a closed-loop position control of the robot end effector provided by computer vision. The term fluoroscopy servoing is given to this process since an X-ray fluoroscope is used as the visualization tool. A software application was developed to segment the needle in the X-ray images to find its position, which is then used as feedback to control the robot and move it to a desired target point. A cadaver study was performed to test the accuracy of this application. Twenty trials were performed and the robot reached the desired target point with an average distance error of 1.21 mm.",

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AU - Corral, Gabriela

AU - Ibáñez, Luis

AU - Nguyen, Charles

AU - Stoianovici, Dan

AU - Navab, Nassir

AU - Cleary, Kevin Robert

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AB - This paper describes an algorithm for automatic needle placement using a six degree-of-freedom (DOF) robot during minimally invasive spine procedures. This automatic needle placement is achieved by a closed-loop position control of the robot end effector provided by computer vision. The term fluoroscopy servoing is given to this process since an X-ray fluoroscope is used as the visualization tool. A software application was developed to segment the needle in the X-ray images to find its position, which is then used as feedback to control the robot and move it to a desired target point. A cadaver study was performed to test the accuracy of this application. Twenty trials were performed and the robot reached the desired target point with an average distance error of 1.21 mm.

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Robot control by fluoroscopic guidance for minimally invasive spine procedures

Abstract

Keywords

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