Advanced search
Publication Cover
Journal of Medical Engineering & Technology Volume 20, 1996 - Issue 6
Submit an article Journal homepage
10
Views
3
CrossRef citations to date
0
Altmetric
Original Article

A comparison of the hydrodynamical behaviour of three heart aortic prostheses by numerical methods

M. Cerrolazat Bioengineering Centre Faculty of Engineering, Central University of Venezuela, PO Box 50.361, Caracas, 1050-A, Venezuela
,
M. Herrera Service of Haemodynamic and Cardiology, Vargas Hospital, Caracas, Venezuela
,
R. Berrios School of Mechanical Engineering, Faculty of Engineering, Central University of Venezuela, Caracas, Venezuela
&
W. Annichiaricco School of Mechanical Engineering, Faculty of Engineering, Central University of Venezuela, Caracas, Venezuela
Pages 219-228 | Published online: 09 Jul 2009

References

  • Braunwald E. Heart Disease Textbook of Cardiovascular Medicine. Sanders, New York 1992
  • Skalak R. Finite element in biofluid mechanics. Finite Element Analysis in Biomechanics, Gallagher, et al. John Wiley & Sons, New York 1982
  • Farahifar D., Cassot F., Bodard H. Velocity profiles in the weak of two prosthetic heart valves using a new cardiovascular simulator. Journal of Biomechanics 1985; 18(10)789–802
  • Chandran K. B., Khalighi B., Chen C. J. Experimental study of physiological pulsatile flow past valve prostheses in a model of human aorta—I. Caged-ball valves. Journal of Biomechanics 1985; 18(10)763–772
  • Chandran K. B., Khalighi B., Chen C. J. Experimental study of physiological pulsatile flow past valve prostheses in a model of human aorta—II. Tilting disc valves and the effect of orientation. Journal of Biomechanics 1985; 18(10)773–780
  • Chandran K. B., Cabell G. N., Khalighi B., Chen C. J. Laser anemometry measurements of pulsatile flow past aortic valve prostheses. Journal of Biomechanics 1983; 16(10)863–873
  • Van Steenhoven A. A., Veensyra P. C., Reneman R. S. The effect of some haemodynamic factors on the behavior of the aortic valve. Journal of Biomchanics 1982; 15(12)941–950
  • Rosseau E. P. M., van de Ven A. P. C., van Steenhoven A. A., Seroo J. M. Design of a system for the accelerated loading of heart valve prostheses. Journal of Biomechanics 1984; 17(2)149–153
  • Chandran K. B., Cabell G. N., Khalighi B., Chen C. J. Pulsatile flow past aortic valve bioprostheses in a model human aorta. Journal of Biomechanics 1984; 17(8)609–619
  • Walburn F. J., Stein P. D. Wall shear stress during pulsatile flow distal to a normal porcine aortic valve. Journal of Biomechanics 1984; 17(2)97–102
  • Reul H., Talukder N., Muller E. W. Fluid mechanics of the natural mitral valve. Journal of Biomechanics 1981; 14(5)361–372
  • Sallam I. A., Shaw A., Bain W. H. Experimental evaluation of mechanical haemolysis with Starr-Edwards. Kay-Shiley and Bjork-Shiley valves. Scandinavian Journal of Thoracic Cardiovscular 1976; 10: 117–122
  • van Steenhoven A. A., van Duppen J. A. G., Cauwenberg J. W. G., van Rentergheim R. J. In vitro closing behavior of Bjork-Shiley, St Jude and Hancock heart valve prostheses in relation to the in vivo recorded aortic valve closure. Journal of Biomechanics 1982; 15(11)841–848
  • Tillman W., Reul H., Herold M., Bruss K H., van Gilse J. In vitro wall shear measurements at aortic valve prostheses. Journal of Biomechanics 1984; 17(4)263–279
  • Yoganathan A. P., Cocoran W. H., Harrison E. C. In vitro velocity measurements in the vicinity of aortic prosteses. Journal of Biomechanics 1979; 12: 135–152
  • Yoganathan A. P., Corcoran W. H., Harrison E. C. Pressure drops across prosthetic aortic heart valves under steady and pulsatile flow—In vitro measurements. Journal of Biomechanics 1979; 12: 153–164
  • Woo Y. R., Yoganathan A. P. In vitro pulsatile flow measurements in the vicinity of mechanical heart in the mitral flow chamber. Life support systems 1986; 4: 115–139
  • Gokhale V. V., Tanner R. J., Bischoff K. B. Finite element solution for the Navier—Stokes equations for a 2D steady flow through a section of a canine aorta model. Journal of Biomechanics 1978; 11: 241–249
  • Imalda K, Goodman F. Analysis of non-linear pulsatile blood flow in arteries. Journal of Biomechanics 1980; 13: 1007–1022
  • Ling S. C., Atabek H. B. A non-linear analysis of pulsatile blood flow in arteries. Journal of Fluid Mechanics 1972; 55: 492–511
  • Sikarskie D. L., Stein P., Vable M. A mathematical model for aortic valve vibration. Journal of Biomechanics 1979; 17(11)831–837
  • Stevenson D. M., Yogamatjam A. P. Numerical simulation of steady turbulent flow through trileaflet aortic heart valves—I. Computational scheme and methodology. Journal of Biomechanics 1985; 18(12)899–907
  • Stevenson D. M., Yoganathan A. P., Williams F. P. Numerical simulation of steady turbulent flow through trileaflet aortic heart valves—II. Results of five models. Journal of Biomechanics 1985; 18(12)909–926
  • Idelshon S. H., Costa L. E., Ponso R. A comparative computational study of blood flow through prosthetic heart valves using the finite element method. Journal of Biomechanics 1985; 18(2)97–115
  • Davis N., Hani M. K. A finite element analysis of endothelial shear stress for pulsatile blood flow. Biorheology 1974; 11: 137–147
  • Peskin C. S., McQueen D. H. Modelling prosthetic heart valves for numerical analysis of blood flow in the heart. Journal of Computational Physics 1980; 37: 113–132
  • Peskin C. S., Mc Queen D. H. Computer assisted design of pivoting disc prosthetic mitral valves. Journal of Thoracic Cardiovascular Surgery 1983; 86: 126–135
  • McCracken M. M., Peskin C. S. A vortex method for blood flow through heart valves. Journal of Computational Physics 1980; 37: 113–132
  • Bardet J. Haemodinamique. Amep, Paris 1983
  • Drobinsky G., Eugene M. Exploration haemodinamique cardiovasculaire. Masson, Paris 1992
  • Ganong W. F. Physiologie medicale. Masson, Paris 1977
  • Klimczak C., Drobinsky G. Echocardigraphie. Masson, Paris 1991
  • Acar J. Cardiopaties valvulaires acquises. Flammarion, Paris 1985
  • Taylor C., Hughes T. G. Finite Element Programming of the Navier-Stokes Equations. Pineridge Press, SwanseaUK 1981
  • Pirosseau O. Finite Element Methods for Fuids. John Wiley, New York 1989
  • Schlichting H. Grenzshicht Theorie Fentfte Auflage. Verlag Braun, KalsruheGermany 1965
  • Huebner K. H., Thornton E. A. The Finite Element Method for Engineers. John Wiley, New York 1976
  • Zienkiewicz O. C., Taylor P. L. The Finite Element Method. Basic Formulation and Linear problems. McGraw Hill, New York 1988; vol. 1
  • Willie S. O. Finite element formulation of the pulsatitle blood flow patterns in arterial abnormalities. Finite Elements in Biomechanics, Gallagher, et al. John Wiley, New York 1982

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.