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DESIGN OF AN MRI-COMPATIBLE ROBOT FOR IMAGE-GUIDED NEEDLE INSERTION PROCEDURES USING ACTIVE TENDON-DRIVEN NEEDLES

Samuel Lafreniere, Olivia Lee Sprouse, Ryan Justin Padilla, Bardia Konh

Year
2023
Citations
2
Access
Open access

Abstract

Abstract Visualization and tip tracking of needles inside the body in needle-based interventions are usually challenging using conventional medical imaging modalities such as ultrasound and CT. MRI provides an amazing imaging feedback for the operator to target lesions with a great confidence. However, the needle should be operated teleoperatively using a robot interface. This work introduces a novel design of an MRI-compatible (slave) robot for image-guided needle insertions. The robot is designed with MRI-compatible materials and actuators to enable manual initial positioning inside the MRI bore prior to operation, as well as robotic teleoperation (insertion and actuation) of an active tendon-driven needle towards targets. The range of motion is shown to be appropriate for transperineal prostate interventions such as prostate biopsy and brachytherapy.

Keywords

RobotTeleoperationComputer scienceVisualizationInterventional magnetic resonance imagingProstate brachytherapyBiomedical engineeringActuatorMagnetic resonance imagingComputer vision

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