Projective invariant biplanar registration of a compact modular orthopaedic robot

Sheng Luan; Lei Sun; Lei Hu; Aimin Hao; Changsheng Li; Peifu Tang; Lihai Zhang; Hailong Du

doi:10.3233/BME-130837

Projective invariant biplanar registration of a compact modular orthopaedic robot

Sheng Luan, Lei Sun, Lei Hu, Aimin Hao, Changsheng Li, Peifu Tang^*, Lihai Zhang, Hailong Du

^*Corresponding author for this work

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

3 Citations (Scopus)

Abstract

This paper presents a compact orthopedic robot designed with modular concept. The layout of the modular configuration is adaptive to various conditions such as surgical workspace and targeting path. A biplanar algorithm is adopted for the mapping from the fluoroscopic image to the robot, while the former affine based method is satisfactory only when the projection rays are basically perpendicular to the reference coordinate planes. This paper introduces the area cross-ratio as a projective invariant to improve the registration accuracy for non-orthogonal orientations, so that the robotic system could be applied to more orthopedic procedures under various C-Arm orientation conditions. The system configurations for femoral neck screw and sacroiliac screw fixation are presented. The accuracy of the robotic system and its efficacy for the two typical applications are validated by experiments.

Original language	English
Pages (from-to)	511-518
Number of pages	8
Journal	Bio-Medical Materials and Engineering
Volume	24
Issue number	1
DOIs	https://doi.org/10.3233/BME-130837
Publication status	Published - 2014
Externally published	Yes

Keywords

Medical robotics
modular design
projective invariant

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AU - Luan, Sheng

AU - Sun, Lei

AU - Hu, Lei

AU - Hao, Aimin

AU - Li, Changsheng

AU - Tang, Peifu

AU - Zhang, Lihai

AU - Du, Hailong

PY - 2014

Y1 - 2014

N2 - This paper presents a compact orthopedic robot designed with modular concept. The layout of the modular configuration is adaptive to various conditions such as surgical workspace and targeting path. A biplanar algorithm is adopted for the mapping from the fluoroscopic image to the robot, while the former affine based method is satisfactory only when the projection rays are basically perpendicular to the reference coordinate planes. This paper introduces the area cross-ratio as a projective invariant to improve the registration accuracy for non-orthogonal orientations, so that the robotic system could be applied to more orthopedic procedures under various C-Arm orientation conditions. The system configurations for femoral neck screw and sacroiliac screw fixation are presented. The accuracy of the robotic system and its efficacy for the two typical applications are validated by experiments.

AB - This paper presents a compact orthopedic robot designed with modular concept. The layout of the modular configuration is adaptive to various conditions such as surgical workspace and targeting path. A biplanar algorithm is adopted for the mapping from the fluoroscopic image to the robot, while the former affine based method is satisfactory only when the projection rays are basically perpendicular to the reference coordinate planes. This paper introduces the area cross-ratio as a projective invariant to improve the registration accuracy for non-orthogonal orientations, so that the robotic system could be applied to more orthopedic procedures under various C-Arm orientation conditions. The system configurations for femoral neck screw and sacroiliac screw fixation are presented. The accuracy of the robotic system and its efficacy for the two typical applications are validated by experiments.

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Projective invariant biplanar registration of a compact modular orthopaedic robot

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Keywords

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