Viscoelastic properties of human arteries. Methodology and preliminary results

In order to study the biomechanical properties of the arterial wall and to compare arteries with different histologic structures, we designed a device that allows testing of arterial segments under near-physiologic conditions. A hydrodynamic generator simulates systolo-diastolic pressures in an open...

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Veröffentlicht in:	Surgical and radiologic anatomy (English ed.) 1996, Vol.18 (2), p.89-96
Hauptverfasser:	Rosset, E, Brunet, C, Rieu, R, Rolland, P, Pellissier, J F, Magnan, P E, Foulon, P, Drizenko, A, Laude, M, Branchereau, A, Friggi, A
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Sprache:	eng
Schlagworte:	Adolescent Adult Biomechanical Phenomena Carotid Artery, Common - physiology Carotid Artery, Common - ultrastructure Compliance Elasticity Female Femoral Artery - physiology Femoral Artery - ultrastructure Humans Male Microscopy, Electron, Scanning Pressure Viscosity
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container_title	Surgical and radiologic anatomy (English ed.)
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creator	Rosset, E Brunet, C Rieu, R Rolland, P Pellissier, J F Magnan, P E Foulon, P Drizenko, A Laude, M Branchereau, A Friggi, A
description	In order to study the biomechanical properties of the arterial wall and to compare arteries with different histologic structures, we designed a device that allows testing of arterial segments under near-physiologic conditions. A hydrodynamic generator simulates systolo-diastolic pressures in an open loop. An intraarterial pressure sensor and a sonomicrometer connected to two piezoelectric crystals placed in diametric opposition on the arterial wall allow computer calculation of compliance, stiffness, midwall radial arterial stress, Young modulus, and incremental modulus for a given arterial segment at a given pressure setting. Seven healthy common carotid artery (CCA) segments and seven healthy (superficial) femoral artery (FA) segments were studied immediately after removal from brain-dead donors between the ages of 18 and 35 years. Histologic examination was performed to determine the density of elastic fibers in the arterial wall. Hysteresis was observed in all segments regardless of pressure settings. Compliance was greater and modulus values and stiffness were lower in CCA than in FA. No evidence of structural change was noted after testing in the circulation loop. These preliminary results open the way to a wide variety of applications for our hydrodynamic circulation loop. Experiments will be undertaken to compare the mechanical properties of arteries before and after cryopreservation.
doi_str_mv	10.1007/BF01795225
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subjects	Adolescent Adult Biomechanical Phenomena Carotid Artery, Common - physiology Carotid Artery, Common - ultrastructure Compliance Elasticity Female Femoral Artery - physiology Femoral Artery - ultrastructure Humans Male Microscopy, Electron, Scanning Pressure Viscosity
title	Viscoelastic properties of human arteries. Methodology and preliminary results
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