Quantification of Force and Torque Applied by a High-Field Magnetic Resonance Imaging System on an Ultrasonic Motor for MRI-Guided Robot-Assisted Interventions

Quantification of Force and Torque Applied by a High-Field Magnetic Resonance Imaging System on an Ultrasonic Motor for MRI-Guided Robot-Assisted Interventions

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The risk of accidental dislodgement of robot-operated surgical mechanisms can lead to morbidity or mortality.The force and torque applied by a 3.0-tesla scanner on an ultrasonic motor are not fully known.The force and torque may displace the motor, which is not fully magnetic resonance imaging (MRI)-compatible but can be safely used in MR environments.A suspension apparatus was designed to measure the angles of deflection and rotation applied to the motor Custom Cushion by MR magnetic fields.

Three orientations and two power states of the motor were assessed inside the MR bore.The displacement force and torque were measured at eight locations with respect to the bore.The displacement force on the motor from 10 Kratom Powder cm outside the magnet bore to 20 cm inside the bore ranged from 3 to 7 gF.The experimental measurements are in agreement with the theoretical values.Running the motor altered the force by 1 gF.

The force does not significantly change when the MRI scanner is on.Considerable displacement force is applied to the motor, and no deflection torque is observed.Quantified values can be used to solve dynamic equations for robotic mechanisms intended for MRI-guided operations.