Real-time positioning and tracking technique for endovascular untethered microrobots propelled by MRI gradients
ICRA(2009)
摘要
A real-time positioning and tracking technique for untethered devices or robots magnetically propelled by a clinical magnetic resonance imaging (MRI) system is described. The local magnetic field induced by the device, composed of a ferromagnetic material, is used as a signature to localize the device on three one-dimensional projections. A high-precision 3D circular-motion system was used to assess the precision and accuracy of this method. The integration of this technique inside propulsion and imaging MRI sequences was also achieved to demonstrate the feasibility of this tracking scheme in a closed-loop control scheme. Finally, in vivo tracking during automatic navigation of an untethered device in the carotid artery of a living animal is demonstrated.
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关键词
closed-loop control scheme,untethered device,circular-motion system,mri gradient,imaging mri sequence,carotid artery,local magnetic field,tracking scheme,automatic navigation,clinical magnetic resonance imaging,real-time positioning,vivo tracking,endovascular untethered microrobots,robots,magnetic fields,propulsion,magnetic materials,navigation,magnetic field,in vivo,real time systems,magnetic resonance image,automatic control,tracking,ferromagnetic materials,real time,magnetic resonance imaging,closed loop control
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