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 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 cm outside the magnet bore to 20 cm insi...
In this letter, we present an intraoperative magnetic resonance imaging (MRI)-guided robot for bilat...
This paper presents a safe, electrically powered MR-compatible actuator with a large range of output...
Abstract—Actuators that are powered, imaged, and controlled by magnetic resonance (MR) scanners coul...
The risk of accidental dislodgement of robot-operated surgical mechanisms can lead to morbidity or m...
The safe performance of magnetic resonance imaging (MRI)-guided robot-assisted interventions require...
This dissertation presents design and validation of several systems and technologies for magnetic re...
ABSTRACT: The choice of an adequate actuation method is a central issue in the devel-opment of any m...
The choice of an adequate actuation method is a central issue in the development of any mechatronic ...
Abstract Background Safe robot-assisted intervention ...
Magnetic resonance imaging allows for visualizing detailed pathological and morphological changes of...
Abstract Intraoperative surgery has created a need to develop new kinds of surgical tools. Also, the...
The excellent soft tissue contrast of Magnetic Resonance Imaging (MRI) makes it an invaluable tool f...
Minimally invasive surgery (MIS) techniques provide reduced patient discomfort, faster healing time,...
The combination of functional MR imaging and novel robotic tools may provide unique opportunities to...
Developments in magnetic resonance imaging (MRI), coupled with parallel progress in the field of com...
In this letter, we present an intraoperative magnetic resonance imaging (MRI)-guided robot for bilat...
This paper presents a safe, electrically powered MR-compatible actuator with a large range of output...
Abstract—Actuators that are powered, imaged, and controlled by magnetic resonance (MR) scanners coul...
The risk of accidental dislodgement of robot-operated surgical mechanisms can lead to morbidity or m...
The safe performance of magnetic resonance imaging (MRI)-guided robot-assisted interventions require...
This dissertation presents design and validation of several systems and technologies for magnetic re...
ABSTRACT: The choice of an adequate actuation method is a central issue in the devel-opment of any m...
The choice of an adequate actuation method is a central issue in the development of any mechatronic ...
Abstract Background Safe robot-assisted intervention ...
Magnetic resonance imaging allows for visualizing detailed pathological and morphological changes of...
Abstract Intraoperative surgery has created a need to develop new kinds of surgical tools. Also, the...
The excellent soft tissue contrast of Magnetic Resonance Imaging (MRI) makes it an invaluable tool f...
Minimally invasive surgery (MIS) techniques provide reduced patient discomfort, faster healing time,...
The combination of functional MR imaging and novel robotic tools may provide unique opportunities to...
Developments in magnetic resonance imaging (MRI), coupled with parallel progress in the field of com...
In this letter, we present an intraoperative magnetic resonance imaging (MRI)-guided robot for bilat...
This paper presents a safe, electrically powered MR-compatible actuator with a large range of output...
Abstract—Actuators that are powered, imaged, and controlled by magnetic resonance (MR) scanners coul...