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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 51, 2007 - Issue 1
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Original Articles

Numerical and Experimental Simulation of Transitional Flow in a Blood Vessel Junction

Sang-Wook Lee Imaging Research Laboratories, Robarts Research Institute, London, Ontario, Canada
,
David S. Smith Department of Mechanical and Industrial Engineering, University of Illinois at Chicago, Chicago, Illinois, USA
,
Francis Loth Department of Mechanical and Industrial Engineering and Bioengineering Department, University of Illinois at Chicago, Chicago, Illinois, USACorrespondence[email protected]
,
Paul F. Fischer Mathematics and Computer Science Division, Argonne National Laboratory, Argonne, Illinois, USA
&
Hisham S. Bassiouny Department of Surgery, University of Chicago, Chicago, Illinois, USA
Pages 1-22 | Received 15 Nov 2005, Accepted 04 Mar 2006, Published online: 15 Dec 2006

REFERENCES

  • M. F. Fillinger , E. R. Reinitz , R. A. Schwartz , D. E. Resetarits , A. M. Paskanik , and C. E. Bredenberg , Beneficial Effects of Banding on Venous Intimal-Medial Hyperplasia in Arteriovenous Loop Grafts , Am. J. Surg. , vol. 158 , pp. 87 – 94 , 1989 . [CSA]
  • R. Y. Kanterman , T. M. Vesely , T. K. Pilgram , B. W. Guy , D. W. Windus , and D. Picus , Dialysis Access Grafts: Anatomic Location of Venous Stenosis and Results of Angioplasty , Radiology , vol. 195 , pp. 135 – 139 , 1995 . [CSA]
  • M. F. Fillinger , E. R. Reinitz , R. A. Schwartz , D. E. Resetarits , A. M. Paskanik , D. Bruch , and C. E. Bredenberg , Graft Geometry and Venous Intimal-Medial Hyperplasia in Arteriovenous Loop Grafts , J. Vasc. Surg. , vol. 11 , pp. 556 – 566 , 1990 . [CSA] [CROSSREF]
  • S. W. Lee , P. F. Fischer , F. Loth , T. J. Royston , J. K. Grogan , and H. S. Bassiouny , Flow Induced Vein Wall Vibration in an Arteriovenous Graft , J. Fluid Struct. , vol. 20 , pp. 837 – 852 , 2005 . [CSA] [CROSSREF]
  • I. V. Tricht , D. D. Wachter , J. Tordoir , and P. Verdonck , Hemodynamics in a Compliant Hydraulic in Vitro Model of Straight Versus Tapered PTFE Arteriovenous Graft , J. Surg. Res. , vol. 116 , pp. 297 – 304 , 2004 . [CSA] [CROSSREF]
  • F. Loth , P. F. Fischer , N. Arslan , C. D. Bertram , S. E. Lee , T. J. Royston , W. E. Shaalan , and H. S. Bassiouny , Transitional Flow at the Venous Anastomosis of an Arteriovenous Graft: Potential Activation of the ERK1/2 Mechanotransduction Pathway , J. Biomech. Eng. , vol. 125 , pp. 49 – 61 , 2003 . [CSA] [CROSSREF]
  • M. Heise , S. Schmidt , U. Kruger , R. Pfitzmann , H. Scholz , P. Neuhaus , and U. Settmacher , Local Haemodynamics and Shear Stress in Cuffed and Straight PTFE-Venous Anastomoses , Eur. J. Vasc. Endovasc. Surg. , vol. 26 , pp. 367 – 373 , 2003 . [CSA] [CROSSREF]
  • C. R. Ethier , D. A. Steinman , X. Zhang , S. R. Karpik , and M. Ojha , Flow Waveform Effects on End-to-Side Anastomotic Flow Patterns , J. Biomech. , vol. 31 , pp. 609 – 617 , 1998 . [CSA] [CROSSREF]
  • J. S. Cole , J. K. Watterson , and M. J. O'Reilly , Is There a Haemodynamic Advantage Associated with Cuffed Arterial Anastomoses? J. Biomech. , vol. 35 , pp. 1337 – 1346 , 2002 . [CSA] [CROSSREF]
  • H. M. Crawshaw , W. C. Quist , E. Serallach , C. R. Valeri , and F. W. LoGerfo , Flow Disturbance at the Distal End-to-Side Anastomosis. Effect of Patency of the Proximal Outflow Segment and Angle of Anastomosis , Arch. Surg. , vol. 115 , pp. 1280 – 1284 , 1980 . [CSA]
  • P. E. Hughes and T. V. How , Effects of Geometry and Flow Division on Flow Structures in Models of the Distal End-to-Side Anastomosis , J. Biomech. , vol. 29 , pp. 855 – 872 , 1996 . [CSA] [CROSSREF]
  • S. S. White , C. K. Zarins , D. P. Giddens , H. Bassiouny , F. Loth , S. A. Jones , and S. Glagov , Hemodynamic Patterns in Two Models of End-to-Side Vascular Graft Anastomoses: Effects of Pulsatility, Flow Division, Reynolds Number, and Hood Length , J. Biomech. Eng. , vol. 115 , pp. 104 – 111 , 1993 . [CSA]
  • M. C. Shu , G. P. Noon , and N. H. Hwang , Flow Profiles and Wall Shear Stress Distribution at a Hemodialysis Venous Anastomosis: Preliminary Study , Biorheology , vol. 24 , pp. 723 – 735 , 1987 . [CSA]
  • M. Hofer , G. Rappitsch , K. Perktold , W. Trubel , and H. Schima , Numerical Study of Wall Mechanics and Fluid Dynamics in End-to-Side Anastomoses and Correlation to Intimal Hyperplasia, J. Biomech. , vol. 29, pp. 1297–1308, 1996. [CSA] [CROSSREF]
  • C. R. Ethier , S. Prakash , D. A. Steinman , R. L. Leask , G. G. Couch , and M. Ojha , Steady Flow Separation Patterns in a 45 Degree Junction , J. Fluid Mech. , vol. 411 , pp. 1 – 38 , 2000 . [CSA] [CROSSREF]
  • M. Lei , D. P. Giddens , S. A. Jones , F. Loth , and H. Bassiouny , Pulsatile Flow in an End-to-Side Vascular Graft Model: Comparison of Computations with Experimental Data , J. Biomech. Eng. , vol. 123 , pp. 80 – 87 , 2001 . [CSA] [CROSSREF]
  • F. Loth , S. A. Jones , D. P. Giddens , H. S. Bassiouny , S. Glagov , and C. K. Zarins , Measurements of Velocity and Wall Shear Stress inside a PTFE Vascular Graft Model under Steady Flow Conditions , J. Biomech. Eng. , vol. 119 , pp. 187 – 194 , 1997 . [CSA]
  • M. R. Malik , T. A. Zang , and M. Y. Hussaini , A Spectral Collocation Method for the Navier-Stokes Equations , J. Comput. Phys. , vol. 61 , pp. 64 – 88 , 1985 . [CSA] [CROSSREF]
  • S. P. Mittal , S. P. Simmons , and F. Najjar , Numerical Study of Pulsatile Flow in a Constricted Channel , J. Fluid Mech. , vol. 485 , pp. 337 – 378 , 2003 . [CSA] [CROSSREF]
  • R. S. Lees and C. F. J. Dewey , Phonoangiography: A New Noninvasive Diagnostic Method for Studying Arterial Disease , Proc. Natl. Acad. Sci. USA , vol. 67 , pp. 935 – 942 , 1970 . [CSA] [CROSSREF]
  • R. J. Tobin and I. D. Chang , Wall Pressure Spectra Scaling Downstream of Stenoses in Steady Tube Flow , J. Biomech. , vol. 9 , pp. 633 – 640 , 1976 . [CSA] [CROSSREF]
  • C. A. Taylor , T. J. R. Hughes , and C. K. Zarins , Finite Element Modeling of Blood Flow in Arteries , Comput. Meth. Appl. Mech. Eng. , vol. 158 , pp. 155 – 196 , 1998 . [CSA] [CROSSREF]
  • R. V. Yedavalli , F. Loth , A. Yardimci , W. F. Pritchard , J. N. Oshinski , L. Sadler , F. Charbel , and N. Alperin , Construction of a Physical Model of the Human Carotid Artery Based upon in Vivo Magnetic Resonance Images , J. Biomech. Eng. , vol. 123 , pp. 372 – 376 , 2001 . [CSA] [CROSSREF]
  • S. E. Lee , N. Piersol , F. Loth , P. F. Fischer , G. Leaf , B. Smith , R. Yedavalli , A. Yardimci , N. Alperin , and L. Schwartz , Automated Mesh Generation of an Arterial Bifurcation Based upon In Vivo MR Images , World Cong. Med. Phys. Bioeng. , Chicago , 2000 .
  • S. E. Lee , Solution Method for Transitional Flow in a Vascular Bifurcation Based on In Vivo Medical Images, M.S. thesis , University of Illinois at Chicago , 2002 .
  • C. S. Verma , P. F. Fischer , S. E. Lee , and F. Loth , Proc. 14th Int. Meshing Roundtable , San Diego , CA , 2005 , pp. 363 – 375 .
  • P. F. Fischer , G. W. Kruse , and F. Loth , Spectral Element Methods for Transitional Flows in Complex Geometries , J. Sci. Comput. , vol. 17 , pp. 81 – 98 , 2002 . [CSA] [CROSSREF]
  • S. A. Jones , D. P. Giddens , F. Loth , C. K. Zarins , F. Kajiya , I. Morita , O. Hiramatsu , Y. Ogasawara , and K. Tsujioka , In-Vivo Measurements of Blood Flow Velocity Profiles in Canine Ilio-Femoral Anastomotic Bypass Grafts , J. Biomech. Eng. , vol. 119 , pp. 30 – 38 , 1997 . [CSA]
  • P. F. Fischer , F. Loth , S. W. Lee , D. S. Smith , H. M. Tufo , and H. S. Bassiouny , Parallel Simulation of High Reynolds Number Vascular Flows , Parallel CFD , University of Maryland , MD , preprint ANL/MCS-P1327-0206, Argonne, IL , 2005 .
  • M. Ojha , C. R. Ethier , K. W. Johnston , and R. S. Cobbold , Steady and Pulsatile Flow Fields in an End-to-Side Arterial Anastomosis Model , J. Vasc. Surg. , vol. 12 , pp. 747 – 753 , 1990 . [CSA] [CROSSREF]
  • D. Lee , J. M. Su , and H. Y. Liang , A Numerical Simulation of Steady Flow Fields in a Bypass Tube , J. Biomech. , vol. 34 , pp. 1407 – 1416 , 2001 . [CSA] [CROSSREF]

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