User menu

Thermal and hydrodynamic modelling of active catheters for interventional radiology.

Bibliographic reference
Permanent URL
  1. Blanc R., Piotin M., Mounayer C., Spelle L., Moret J., Direct cervical arterial access for intracranial endovascular treatment, 10.1007/s00234-006-0157-1
  2. Blanc Raphaël, Deschamps Frédéric, Orozco-Vasquez Julita, Thomas Philippe, Gaston André, A 6F guide sheath for endovascular treatment of intracranial aneurysms, 10.1007/s00234-007-0233-1
  3. Piotin Michel, Spelle Laurent, Mounayer Charbel, Salles-Rezende Marco T., Giansante-Abud Daniel, Vanzin-Santos Ricardo, Moret Jacques, Intracranial Aneurysms: Treatment with Bare Platinum Coils—Aneurysm Packing, Complex Coils, and Angiographic Recurrence, 10.1148/radiol.2431060006
  4. Iijima Akira, Piotin Michel, Mounayer Charbel, Spelle Laurent, Weill Alain, Moret Jacques, Endovascular Treatment with Coils of 149 Middle Cerebral Artery Berry Aneurysms, 10.1148/radiol.2372041015
  5. Chang Jun Keun, Chung Seok, Lee Yongku, Park Junha, Lee Seung-Ki, Yang Sang Sik, Moon Shin-Yong, Tschepe Johanes, Chee Youngjoon, Han Dong-Chul, Development of endovascular microtools, 10.1088/0960-1317/12/6/313
  6. Takizawa H, Proc IEEE Micro Electro Mech Syst, 98, 412 (1998)
  7. Fukuda T, Proc IEEE Int Conf Robot Autom, 3, 2290 (1994)
  8. Mineta T., Mitsui T., Watanabe Y., Kobayashi S., Haga Y., Esashi M., Batch fabricated flat meandering shape memory alloy actuator for active catheter, 10.1016/s0924-4247(00)00510-0
  9. Ki-Tae Park, Esashi M., A multilink active catheter with polyimide-based integrated CMOS interface circuits, 10.1109/84.809048
  10. Mizuno S., Nakajima M., Yasuda K., Kobayashi M., Mukai H., Hirano S., Kawai K., Shape Memory Alloy Catheter System for Peroral Pancreatoscopy Using an Ultrathin-Caliber Endoscope, 10.1055/s-2007-1009064
  11. Szewczyk J, IEEE Trans Biomed Eng, 1 (2009)
  12. Langelaar, M and van Keulen, F. Modeling of a shape memory alloy active catheter. pp.1653 12th AIAA/ASME/AHS Adaptive Structures Conference, Palm Springs, CA, US
  13. Wu X.D., Fan Y.Z., Wu J.S., A study on the variations of the electrical resistance for NiTi shape memory alloy wires during the thermo-mechanical loading, 10.1016/s0261-3069(00)00022-4
  14. Novák V., Šittner P., Dayananda G.N., Braz-Fernandes F.M., Mahesh K.K., Electric resistance variation of NiTi shape memory alloy wires in thermomechanical tests: Experiments and simulation, 10.1016/j.msea.2007.02.162
  15. Luo Yun, Okuyama Takeshi, Takagi Toshiyuki, Kamiyama Takamichi, Nishi Kotaro, Yambe Tomoyuki, Thermal control of shape memory alloy artificial anal sphincters for complete implantation, 10.1088/0964-1726/14/1/003
  16. Herzog I, Verbrennungen (1989)
  17. Ng E Y-K, Chua L T, Prediction of skin burn injury. Part 2: Parametric and sensitivity analysis, 10.1243/0954411021536388
  18. Shuai X., Cheng S., Antonini G., Amelioration du transfert convectif de chaleur par l'écoulement pulse dans un fluide visqueux, 10.1002/cjce.5450720312
  19. Anderson D, Computational fluid mechanics and heat transfer (1984)