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Article type: Research Article
Authors: Mathieu, Jean-Baptiste; | Martel, Sylvain | Yahia, L'Hocine | Soulez, Gilles | Beaudoin, Gilles
Affiliations: NanoRobotics Laboratory, École Polytechnique de Montréal, Montréal, PQ, H3C 3A7, Canada | Group of Research in Biomechanics and Biomaterials, École Polytechnique de Montréal, Montreal, PQ, H3C 3A7, Canada | Radiology Department, Faculty of Medicine, Université de Montréal, Montréal, PQ, H3C 3A7, Canada
Note: [] Corresponding author: Jean-Baptiste Mathieu, Nanorobotics Laboratory, lab# D-6160, Decelles building, École Polytechnique de Montréal, C.P. 6079 succ Centre-Ville, Montréal (Québec) Canada, H3C 3A7. Tel.: +1 514 340 4711, p. 5029; E-mail: jean-baptiste.mathieu@polymtl.ca.
Abstract: The Magnetic Resonance Submarine (MR-Sub) project is a first attempt to validate a new propulsion method for future small magnetically controlled microdevices suited for minimally invasive applications in blood vessels. A Magnetic Resonance Imaging (MRI) system provides the driving force in three dimensions to a ferromagnetic core that could be embedded onto a specialised microdevice. The paper describes preliminary tests made to match the magnetic force induced by an MRI system on a ferromagnetic sphere with the drag force it encompasses in a cylindrical tube. These tests provide a proof of concept demonstrating that this new method of propulsion is very promising within the constraints of such types of operations. This conclusion is based on specific measurements showing that 1010/1020 carbon steel spheres (3.175 mm and 2.381 mm in diameter) can withstand a maximum flow of 0.370±0.0064 l/min (19.5 cm/s) and 0.311±0.01209 l/min (16.4 cm/s) respectively when placed inside a 6.35 mm diameter PMMA tube and subjected to a 18 mT/m magnetic field gradient.
Keywords: Magnetic resonance imaging, microdevice, magnetic propulsion
Journal: Bio-Medical Materials and Engineering, vol. 15, no. 5, pp. 367-374, 2005
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