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Issue title: Memorial Issue in Honor of Bun’ichi Tamamushi
Guest editors: Syoten Oka and Eiichi Fukada
Article type: Research Article
Authors: Hasegawa, Masamitsu
Affiliations: Department of Vascular Physiology, National Cardiovascular Center Research Institute, Suita, Osaka 565, Japan
Note: [] Accepted by: Editor E. Fukada
Abstract: The static and dynamic viscoelastic properties were studied of longitudinal and circumferential strips excised from various large veins of dogs. The mechanical behavior in longitudinal direction could be regarded as elastic, while that in circumferential direction was highly viscoelastic. No distinct regionality was observed in either of the longitudinal and the circumferential groups. Noradrenaline and papaverine did not alter the elastic behavior of the longitudinal strips. In circumferential strips, however, noradrenaline caused a considerable decrease in stress relaxation and some steepening in the slope of the upper limb of hysteresis loop. Papaverine did not affect the circumferential characteristics. These findings suggest the dominant contribution of smooth muscle tone to the circumferential characteristics of venous walls. Pretreatment with formic acid abolished the occurrence of stress relaxation in circumferential direction but produced no change in the longitudinal behavior. This indicates that elastin fibers may be a principal determinant of the elastic behavior in longitudinal direction and that a residual tension observed in stress-relaxation tests of circumferential strips may be due to stretched elastin fibers. The elastic moduli of elastase pretreated venous walls were in the order of 108 dynes/cm2, about 1000 times higher than those of the control. Accordingly, collagen fibers seemed not to play any appreciable role in the rheological behavior of venous walls under physiological conditions. This inference was supported by histological observations of venous walls under unstretched and stretched states. Models were proposed in regard to the architecture of the fibrous elements in the venous walls.
Keywords: Stress relaxation, Hysteresis, Energy loss, Dynamic elastic modulus, Dynamic viscosity
DOI: 10.3233/BIR-1983-20510
Journal: Biorheology, vol. 20, no. 5, pp. 531-545, 1983
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