OBJECTIVES: To evaluate the role played by biomechanical and geometrical parameters of endoluminal thrombus and of aortic wall on abdominal aortic aneurysm (AAA) behaviour. MATERIALS AND METHODS: Tensile tests on 21 AAA thrombus specimens from six patients undergoing AAA repair and numerical evaluation of aneurysmal aortic wall stress and strain distribution. Parameters of the analysis were lumen eccentricity, thrombus Young's Modulus and the aortic wall constitutive equation. RESULTS: There was a linear stress/strain for all the thrombus specimens. The numerical analyses show the mechanical behaviour of AAA as a function of lumen eccentricity and biomechanical parameters. CONCLUSIONS: Well organised thrombus reduces the effect of the pressure load on the aneurysmal aortic wall.
OBJECTIVES: To evaluate the role played by biomechanical and geometrical parameters of endoluminal thrombus and of aortic wall on abdominal aortic aneurysm (AAA) behaviour. MATERIALS AND METHODS: Tensile tests on 21 AAA thrombus specimens from six patients undergoing AAA repair and numerical evaluation of aneurysmal aortic wall stress and strain distribution. Parameters of the analysis were lumen eccentricity, thrombus Young's Modulus and the aortic wall constitutive equation. RESULTS: There was a linear stress/strain for all the thrombus specimens. The numerical analyses show the mechanical behaviour of AAA as a function of lumen eccentricity and biomechanical parameters. CONCLUSIONS: Well organised thrombus reduces the effect of the pressure load on the aneurysmal aortic wall.
Authors: M Breeuwer; S de Putter; U Kose; L Speelman; K Visser; F Gerritsen; R Hoogeveen; R Krams; H van den Bosch; J Buth; T Gunther; B Wolters; E van Dam; F van de Vosse Journal: Med Biol Eng Comput Date: 2008-09-23 Impact factor: 2.602
Authors: Evelyne A van Dam; Susanne D Dams; Gerrit W M Peters; Marcel C M Rutten; Geert Willem H Schurink; Jaap Buth; Frans N van de Vosse Journal: Biomech Model Mechanobiol Date: 2007-05-10