Documents publiés en "2005"

Département de génie informatique et génie logiciel

Martel, S., Mathieu, J.-B., Hinojosa, F. A., Yahia, L., & Pouponneau, P. (mai 2005). Fundamental Design Rules for the Conception of Microdevices to be Propelled in the Blood Circulatory System through Magnetic Gradients Generated by a Clinical MRI System [Communication écrite]. 3rd IEEE/EMBS Special Topic Conference on Microtechnology in Medicine and Biology, Oahu, HI, USA. Lien externe

Mathieu, J.-B., Martel, S., Yahia, L., Soulez, G., & Beaudoin, G. (2005). Preliminary investigation of the feasibility of magnetic propulsion for future microdevices in blood vessels. Bio-Medical Materials and Engineering, 15(5), 367-374. Lien externe

Mathieu, J.-B., Soulez, G., & Martel, S. (janvier 2006). Potential Applications of Untethered Microdevices in the Blood Vessels within the Constraints of an MRI System [Communication écrite]. 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Shanghai, China. Lien externe

Institut de génie biomédical

Martel, S., Mathieu, J.-B., Hinojosa, F. A., Yahia, L., & Pouponneau, P. (mai 2005). Fundamental Design Rules for the Conception of Microdevices to be Propelled in the Blood Circulatory System through Magnetic Gradients Generated by a Clinical MRI System [Communication écrite]. 3rd IEEE/EMBS Special Topic Conference on Microtechnology in Medicine and Biology, Oahu, HI, USA. Lien externe

Mathieu, J.-B., Soulez, G., & Martel, S. (janvier 2006). Potential Applications of Untethered Microdevices in the Blood Vessels within the Constraints of an MRI System [Communication écrite]. 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Shanghai, China. Lien externe