Magnetic propulsion of a magnetic device using three square-Helmholtz coils and a square-Maxwell coil

We introduce a square coil system for remote magnetic navigation of a magnetic device without any physical movements of the coils. We used three square-Helmholtz coils and a square-Maxwell coil for magnetic propulsion of a small magnet along the desired path. All the square coils are mountable on a cubic frame that has an opening to accommodate a living subject. The square-Helmholtz coils control the magnetic propulsion direction by generating uniform magnetic field along the desired direction while the square-Maxwell coil controls the propulsion force by generating magnetic gradient field. We performed magnetic propulsion experiments with a downscaled coil set and a three-channel coil driver. Experimental results demonstrate that we can use the square coil set for magnetic navigation of a magnetic device without any physical movements of the coils.

[1]  Sylvain Martel,et al.  Magnetic microparticle steering within the constraints of an MRI system: proof of concept of a novel targeting approach , 2007, Biomedical microdevices.

[2]  Sylvain Martel,et al.  Preliminary investigation of the feasibility of magnetic propulsion for future microdevices in blood vessels. , 2005, Bio-medical materials and engineering.

[3]  S. Martel,et al.  Automatic navigation of an untethered device in the artery of a living animal using a conventional clinical magnetic resonance imaging system , 2007 .

[4]  Jake J. Abbott,et al.  Modeling Magnetic Torque and Force for Controlled Manipulation of Soft-Magnetic Bodies , 2007, IEEE Transactions on Robotics.

[5]  Byung H. Han,et al.  Comparison of positioning methods of a ferromagnetic sphere for magnetic steering using 3 T MRI , 2008, 2008 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[6]  Sylvain Martel,et al.  Adapting the clinical MRI software environment for real‐time navigation of an endovascular untethered ferromagnetic bead for future endovascular interventions , 2008, Magnetic resonance in medicine.

[7]  Sylvain Martel,et al.  Method of propulsion of a ferromagnetic core in the cardiovascular system through magnetic gradients generated by an MRI system , 2006, IEEE Transactions on Biomedical Engineering.

[8]  Gilles Beaudoin,et al.  In Vivo MR-Tracking Based on Magnetic Signature Selective Excitation , 2008, IEEE Transactions on Medical Imaging.

[9]  Bradley J. Nelson,et al.  Modeling and Control of Untethered Biomicrorobots in a Fluidic Environment Using Electromagnetic Fields , 2006, Int. J. Robotics Res..

[10]  S Y Lee,et al.  Gradient waveform synthesis for magnetic propulsion using MRI gradient coils. , 2008, Physics in medicine and biology.