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Passive biaxial mechanical response of aged human iliac arteries
2003 (English)In: Journal of Biomechanical Engineering, ISSN 0148-0731, Vol. 125, no 3, 395-406 p.Article in journal (Refereed) Published
Abstract [en]

Inflation and extension tests of arteries are essential for the understanding of arterial wall mechanics. Data for such tests of human arteries are rare. At autopsy we harvested 10 non-diseased external iliac arteries of aged subjects (52-87 yrs). Structural homogeneity was ensured by means of ultrasound imaging, and anamneses of patients were recorded. We measured the axial in situ stretches, load-free geometries and opening angles. Passive biaxial mechanical responses of preconditioned cylindrical specimens were studied in 37degreesC calcium-free Tyrode solution under quasistatic loading conditions. Specimens were subjected to pressure cycles varying from 0 to 33.3 kPa (250mmHg) at nine fixed axial loads, varying from 0 to 9.90N. For the description of the load-deformation behavior we employed five two-dimensional orthotropic strain-energy functions frequently used in arterial wall mechanics. The associated constitutive models were compared in regard to their ability of representing the experimental data. Histology showed that the arteries were of the muscular type. In contrast to animal arteries they exhibited intimal layers of considerable thickness. The average ratio of wall thickness to outer diameter was 7.7, which is much less than observed for common animal arteries. We found a clear correlation between age and the axial in situ stretch lambda(is) (r = -0.72, P = 0.03), and between age and distensibility of sped. mens, i.e. aged specimens are less distensible. Axial in situ stretches were clearly smaller (1.07+/-0.09, mean+/-SD) than in animal arteries. For one specimen lambda(is) was even smaller than 1.0, i.e. the vessel elongated axially upon excision. The nonlinear and anisotropic load-deformation behavior showed small hystereses. For the majority of specimens we observed axial stretches smaller than 1.3 and circumferential stretches smaller than 1.1 for the investigated loading range. Data from in situ inflation tests showed a significant increase of the axial stretch with intraluminal pressure. Thus, for this type of artery the axial in situ stretch of a non-pressurized vessel is not representative of the axial in vivo stretch. None of the constitutive models were able to represent the deformation behavior of the entire loading range. For the physiological loading range, however some of the models achieved good agreement with the experimental data.

Place, publisher, year, edition, pages
2003. Vol. 125, no 3, 395-406 p.
Keyword [en]
uniform strain hypothesis, elastic properties, stress, invitro, distensibility, model, atherosclerosis, expression, element, aorta
URN: urn:nbn:se:kth:diva-22671DOI: 10.1115/1.1574331ISI: 000184176500012OAI: diva2:341369
QC 20100525Available from: 2010-08-10 Created: 2010-08-10Bibliographically approved

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Holzapfel, Gerhard A.
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