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Fluoroscopic Navigation for a Surgical Robotic System Including a Continuum Manipulator

Cong Gao, Henry Phalen, Shahriar Sefati, Justin Ma, Russell H. Taylor, Mathias Unberath, Mehran Armand

Year
2021
Citations
29

Abstract

We present an image-based navigation solution for a surgical robotic system with a Continuum Manipulator (CM). Our navigation system uses only fluoroscopic images from a mobile C-arm to estimate the CM shape and pose with respect to the bone anatomy. The CM pose and shape estimation is achieved using image intensity-based 2D/3D registration. A learning-based framework is used to automatically detect the CM in X-ray images, identifying landmark features that are used to initialize and regularize image registration. We also propose a modified hand-eye calibration method that numerically optimizes the hand-eye matrix during image registration. The proposed navigation system for CM positioning was tested in simulation and cadaveric studies. In simulation, the proposed registration achieved a mean error of 1.10±0.72 mm between the CM tip and a target entry point on the femur. In cadaveric experiments, the mean CM tip position error was 2.86±0.80 mm after registration and repositioning of the CM. The results suggest that our proposed fluoroscopic navigation is feasible to guide the CM in orthopedic applications.

Keywords

Computer visionLandmarkArtificial intelligenceCadaveric spasmNavigation systemComputer scienceImage registrationFluoroscopyComputer-assisted surgeryImage-guided surgery

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