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Azizi, A., Tremblay, C., & Martel, S. (août 2016). Magnetic fringe field navigation of a guidewire based on thin plate spline modeling [Communication écrite]. IEEE International Conference on Automation Science and Engineering (CASE 2016), Fort Worth, Texas. Lien externe
Bigot, A., Soulez, G., & Martel, S. (2016). A prototype of injector to control and to detect the release of magnetic beads within the constraints of multibifurcation magnetic resonance navigation procedures. Magnetic Resonance in Medicine, 77(1), 444-452. Lien externe
Felfoul, O., Mohammadi, M., Taherkhani, S., de Lanauze, D., Zhong Xu, Y., Loghin, D., Essa, S., Jancik, S., Houle, D., Lafleur, M., Gaboury, L., Tabrizian, M., Kaou, N., Atkin, M., Vuong, T., Batist, G., Beauchemin, N., Radzioch, D., & Martel, S. (2016). Magneto-aerotactic bacteria deliver drug-containing nanoliposomes to tumour hypoxic regions. Nature Nanotechnology, 11(11), 941-947. Lien externe
Khiarak, M. N., Gosselin, B., Martel, S., & De Koninck, Y. (octobre 2016). A CMOS lock-in-amplifier with semi-digital automatic phase tuning [Communication écrite]. IEEE Biomedical Circuits and Systems Conference (BioCAS 2016), Shanghai, China. Lien externe
Latulippe, M., & Martel, S. (octobre 2016). A Progressive Multidimensional Particle Swarm Optimizer for magnetic core placement in Dipole Field Navigation [Communication écrite]. IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2016), Daejeon, Korea. Lien externe
Latulippe, M., Felfoul, O., Dupont, P. E., & Martel, S. (2016). Enabling automated magnetic resonance imaging-based targeting assessment during dipole field navigation. Applied Physics Letters, 108(6). Lien externe
Loghin, D., Tremblay, C., & Martel, S. (juillet 2016). Improved three-dimensional remote aggregations of magnetotactic bacteria for tumor targeting [Communication écrite]. International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS 2016), Paris, France (6 pages). Lien externe
Mandal, K., Parent, F., Martel, S., Kashyap, R., & Kadoury, S. (2016). Vessel-based registration of an optical shape sensing catheter for MR navigation. International Journal of Computer Assisted Radiology and Surgery, 11(6), 1025-1034. Lien externe
Martel, S. (2016). Linking medical nanorobots to pervasive computing. Dans Eshaghian-Wilner, M. M. (édit.), Wireless computing in medicine : from nano to cloud with ethical and legal implications (p. 431-445). Lien externe
Martel, S. (2016). A microscopic submarine in my blood : science based on Fantastic voyage. Lien externe
Martel, S. (2016). Swimming microorganisms acting as nanorobots versus artificial nanorobotic agents: A perspective view from an historical retrospective on the future of medical nanorobotics in the largest known three-dimensional biomicrofluidic networks. Biomicrofluidics, 10(2). Lien externe
Martel, S., & Mohammadi, M. (2016). Switching between magnetotactic and aerotactic displacement controls to enhance the efficacy of MC-1 magneto-aerotactic bacteria as cancer-fighting nanorobots. Micromachines, 7(6), 1-12. Disponible
Tabatabaei, S. N., Tabatabaei, M. S., Girouard, H., & Martel, S. (2016). Hyperthermia of magnetic nanoparticles allows passage of sodium fluorescein and Evans blue dye across the blood-retinal barrier. International Journal of Hyperthermia, 32(6), 657-665. Lien externe
Bigot, A., Soulez, G., & Martel, S. (2016). A prototype of injector to control and to detect the release of magnetic beads within the constraints of multibifurcation magnetic resonance navigation procedures. Magnetic Resonance in Medicine, 77(1), 444-452. Lien externe
Felfoul, O., Mohammadi, M., Taherkhani, S., de Lanauze, D., Zhong Xu, Y., Loghin, D., Essa, S., Jancik, S., Houle, D., Lafleur, M., Gaboury, L., Tabrizian, M., Kaou, N., Atkin, M., Vuong, T., Batist, G., Beauchemin, N., Radzioch, D., & Martel, S. (2016). Magneto-aerotactic bacteria deliver drug-containing nanoliposomes to tumour hypoxic regions. Nature Nanotechnology, 11(11), 941-947. Lien externe
Martel, S. (2016). Swimming microorganisms acting as nanorobots versus artificial nanorobotic agents: A perspective view from an historical retrospective on the future of medical nanorobotics in the largest known three-dimensional biomicrofluidic networks. Biomicrofluidics, 10(2). Lien externe
Martel, S., & Mohammadi, M. (2016). Switching between magnetotactic and aerotactic displacement controls to enhance the efficacy of MC-1 magneto-aerotactic bacteria as cancer-fighting nanorobots. Micromachines, 7(6), 1-12. Disponible
Tabatabaei, S. N., Tabatabaei, M. S., Girouard, H., & Martel, S. (2016). Hyperthermia of magnetic nanoparticles allows passage of sodium fluorescein and Evans blue dye across the blood-retinal barrier. International Journal of Hyperthermia, 32(6), 657-665. Lien externe
