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Scott Robertson's publicationsKuo WT, Deso SE, Robertson SW. Venatech LGM Filter Retrieval 16 Years After Implantation: Piecemeal Removal By Intentional Mechanical Fracture. J Vasc Interv Radiol 2013; 24(11); 1731-1737. Kuo WT, Robertson SW, Odegaard JI, Hofmann LW. Complex Retrieval of Fractured, Embedded, and Penetrating IVC Filters: a Prospective Study with Histologic and Electron Microscopic Analysis. J Vasc Interv Radiol 2013, 24; 622-630. Robertson SW, Pelton AR, Ritchie RO. Mechanical fatigue and fracture of Nitinol. Int Mater Rev 2012, 57 (1); 1-36. Barney MM, Xu D, Robertson SW, Schroeder V, Ritchie RO, Pelton AR, Mehta A. Impact of Thermomechanical Texture on the Superelastic Response of Nitinol Implants. J Mech Behav Biomed Mater 2011. 4; 1431-1439. Hull JE, Robertson SW. Bard Recovery Filter: Evaluation and Management of Vena Cava Limb Perforation, Fracture and Migration. J Vasc Interv Radiol 2009. 20:52-60. Robertson SW, Cheng CP, Razavi MK. Biomechanical Response of Stented Carotid Arteries to Swallowing and Neck Motion. J Endovasc Ther 2008, 15:663-671. Robertson SW, Jessup DB, Boero IJ, Cheng CP. Right Renal Artery In Vivo Stent Fracture. J Vasc Interv Radiol 2008, 19(3); 439-442. Gall K, Tyber J, Wilkesanders G, Robertson SW, Ritchie RO, Maier HJ. Effect of Microstructure on the Fatigue of Hot Rolled and Cold Drawn NiTi Shape Memory Alloys. Mat Sci Eng A 2008, 486:389-403. Pelton AR, Schroeder V, Mitchell MR, Gong XY, Barney M, Robertson S. Fatigue and Durability of Nitinol Stents. J Mech Behav Biomed Mater 2008, 1; 153-164. Robertson SW, Ritchie RO. A Fracture-Mechanics Based Approach to Fracture Control in Biomedical Devices Manufactured from Nitinol Tube. J. Biomed. Mater. Res. B 2008, 84B(1); 26-33. Robertson SW, Mehta A, Pelton AR, Ritchie RO. Evolution of crack-tip transformation zones in superelastic Nitinol subjected to in situ fatigue: A fracture mechanics and synchrotron X-ray microdiffraction analysis. Acta Mater 2007, 55(18); 6198-6207. Robertson SW, Ritchie RO. In vitro fatigue-crack growth and fracture toughness behaviour of thin-walled superelastic Nitinol tube for endovascular stents: A basis for defining the effect of crack-like defects. Biomaterials 2007; V28(4): 700-709. Stankiewicz JM, Robertson SW, Ritchie RO. Fatigue-crack growth properties of thin-walled superelastic austenitic Nitinol tube for endovascular stents. J. Biomed. Mater. Res. A 2007; 81A (3): 685-691. Robertson SW, Gong XY, Ritchie RO. Effect of Product Form and Heat Treatment on the Crystallographic Texture of Austenitic Nitinol. J Mater Sci 2006; V41; 621-630. Robertson SW, Imbeni V, Wenk H-R, Ritchie RO. Crystallographic texture for tube and plate of the superelastic/shape-Memory alloy Nitinol used for endovascular stents. J Biomed Mater Res A 2005; V72A; Iss 2: 190-199. |
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