Biomedical Engineering Reference
In-Depth Information
J. D., Vascular mechanics of the coronary artery, Z. Kardiol., Vol. 89
(Suppl. 2), pp. 92-100, 2000.
[54] Loree, H. M., Tobias, B. J., Gibson, L. J., Kamm, R. D., Small, D. M., and
Lee, R. T., Mechanical properties of model atherosclerotic lesion lipid
pools, Arteriosclerosis Thrombosis, Vol. 14, No. 2, pp. 230-234, 1994.
[55] Nissen, S. E., Gurley, J. C., Grines, C. L., Booth, D. C., McClure, R.,
Berk. M., Fischer, C., and DeMaria, A. N., Intravascular ultrasound
assessment of lumen size and wall morphology in normal subjects
and patients with coronary artery disease, Circulation, Vol. 84, No. 3,
pp. 1087-1099, 1991.
[56] Bermejo, J., Botas, J., Garcia, E., Elizaga, J., Osende, J., Soriano, J.,
Abeytua, M., and Delcan, J. L., Mechanisms of residual lumen steno-
sis after high-pressure stent implantation: a quantitative coronary
angiography and intravascular ultrasound study, Circulation, Vol. 98,
No. 2, pp. 112-118, 1998.
[57] Cox, R. H., Anisotropic properties of the canine carotid artery in vitro,
J. Biomech., Vol. 8, No. 5, pp. 293-300, 1975.
[58] Cox, R. H., Passive mechanics and connective tissue composition of
canine arteries, Am. J. Physiol., Vol. 234, No. 5, pp. H533-541, 1978.
[59] Dobrin, P. B, Biaxial anisotropy of dog carotid artery: estimation
of circumferential elastic modulus, J. Biomech., Vol. 19, No. 5, pp.
351-358, 1986.
[60] Dobrin, P. B. and Doyle, J. M., Vascular smooth muscle and the
anisotropy of dog carotid artery, Circ. Res., Vol. 27, No. 1, pp. 105-119,
1970.
[61] Dobrin, P. B. and Mrkvicka, R., Estimating the elastic modulus of
non-atherosclerotic elastic arteries, J. Hypertension, Vol. 10, No. 6,
(Suppl.), pp. S7-10, 1992.
[62] Frobert, O., Gregersen, H., and Bagger, J. P., Mechanics of porcine
coronary arteries ex vivo employing impedance planimetry: A new
intravascular technique, Ann. Biomed. Eng. Vol. 24, No. 1, pp. 148-155,
1996.
