Ex vivo biomechanical behavior of abdominal aortic aneurysm: Assessment using a new mathematical model

Armentano, R. L., J. Levenson, J. G. Barra, E. I. C. Fischer, G. J. Breitbart, R. H. Pichel, and A. Simon. Assessment of elastin and collagen contribution to aortic elasticity in conscious dogs.Am. J. Physiol. 260:H1870-H1877, 1991.

Baxter, B. T., V. A. Davis, D. J. Minion, Y. P. Wang, T. G. Lynch, and B. M. McManus. Abdominal aortic aneurysms are associated with altered matrix proteins of the nonaneurysmal aortic segments.J. Vasc. Surg. 19:797–802, 1994.

Carew, T. E., R. N. Vaishnav, and D. J. Patel. Compressibility of the arterial wall.Circ. Res. 23:61–68, 1968.

Clark, J. M., and S. Glagov. Transmural organization of the arterial media: The lamellar unit revisited.Atherosclerosis 5:19–34, 1985.

Cole, C. W. Highlights of an international workshop on abdominal aortic aneurysms.Can. Med. Assoc. J. 141:393–395, 1989.

Cox, R. H. Passive mechanics and connective tissue composition of canine arteries.Am. J. Physiol. 234:H533-H541, 1978.

Cronenwett, J. L., S. K. Sargent, H. Wall, M. L. Hawkes, D. H. Freeman, B. J. Dain, J. K. Cure, D. B. Walsh, R. M. Zwolak, M. D. McDaniel, and J. R. Schneider. Variables that affect the expansion rate and outcome of small abdominal aortic aneurysms.J. Vasc. Surg. 11:260–268, 1990.

Darling, R. C., R. Carlene, R. N. Messina, D. C. Brewster, and L. W. Ottinger. Autopsy study of unoperated abdominal aortic aneurysms: The case for early resection.Circulation 56:161–164, 1977.

Dobrin, P. B., and R. Mrkvicka. Failure of elastin and collagen as possible critical connective tissue alterations underlying aneurysmal dilation.Cardiovasc. Surg. 2:484–488, 1994.

Dobrin, P. B. Pathophysiology and pathogenesis of aortic aneurysms.Surg. Clin. N. Am. 69:687–703, 1989.

Drangova, M., D. W. Holdsworth, C. J. Boyd, P. J. Dunmore, M. R. Roach, and A. Fenster. Elasticity and geometry measurements of vascular specimens using a high resolution laboratory CT scanner.Physiol. Meas. 14:277–290, 1993.

He, C. M., and M. R. Roach. The composition and mechanical properties of abdominal aortic aneurysms.J. Vasc. Surg. 20:6–13, 1994.

Lanne, T., B. Sonesson, H. Bengtsson, and D. Gustafsson. Diameter and compliance in the male human abdominal aorta: Influence of age and aortic aneurysm.Eur. J. Vasc. Surg. 6:178–184, 1992.

Lehninger, A. L.Biochemistry, New York: Worth Publishers, 1975, 833 pp.

Limet, R., N. Sakalihasan, and A. Albert. Determination of the expansion rate and incidence of rupture of abdominal aortic aneurysm.J. Vasc. Surg. 14:540–548, 1991.

Macsweeny, S. T., G. Young, R.M. Greenhalgh, and J. T. Powell. Mechanical properties of the aneurysmal aorta.Br. J. Surg. 79:1281–1284, 1992.

McGee, G. S., B. T. Baxter, V. P. Shively, R. Chisholm, W. J. McCarthy, W. R. Flinn, J. S. Yao, and W. H. Pearce. Aneurysm or occlusive disease factors determining the clinical course of atherosclerosis of the infrarenal aorta.Surgery 110:370–375, 1991.

Menashi, S., J. S. Campa, R. M. Greenhalgh, and J. T. Powell. Collagen in abdominal aortic aneurysm: Typing, content, and degradation.J. Vasc. Surg. 6:578–582, 1987.

Ouriel, K., R. M. Green, C. Donayree, C. K. Shortell, J. Elliot, and J. A. DeWeese. An evaluation of new methods of expressing aortic aneurysm size: Relationship to rupture.J. Vasc. Surg. 15:12–20, 1992.

Park, J. B., and A. S. Hoffman. Interaction of collagen and smooth muscle cells in aortic biomechanics.Ann. Biomed. Eng. 6:176–171, 1978.

Rizzo, R. J., W. J. McCarthy, S. N. Dixit, M. P. Lilly, V. P. Shively, W. R. Flinn, and J. S. Yao. Collagen types and matrix protein content in human abdominal aortic aneurysms.J. Vasc. Surg. 10:365–373, 1989.

Roach, M. R., and A. C. Burton. The reason for the shape of the distensibility curves of arteries.Can. J. Biochem. Physiol. 35:681–690, 1957.

Samila, Z. J., and S. A. Carter. The effect of age on the unfolding of elastin lamellae and collagen fibers with stretch in human carotid arteries.Can. J. Physiol. Pharmacol. 59: 1050–1057, 1981.

Sherebrin, M. H., J. E. Hegney, and M. R. Roach. Effect of age on the anisotropy of the descending human thoracic aorta determined by uniaxial tensile testing and digestion by NaOH under load.Can. J. Physiol. Pharmacol. 67:871–878, 1989.

Sterpetti, A. V., R. D. Schultz, R. J. Feldhaus, S. E. Cheng, and D. J. Peetz. Factors influencing enlargement rate of small abdominal aortic aneurysms.J. Surg. Res. 43:211–219, 1987.

Sumner, D. S., D. E. Hokanson, and D. E. Strandness. Stress-strain characteristics and collagen-elastin content of abdominal aortic aneurysms.Surg. Gynecol. Obstet 130: 459–466, 1970.

Vaishnav, R. N., J. T. Young, J. S. Janicki, and D. J. Patel. Nonlinear anisotropic elastic properties of the canine aorta.Biophys. J. 12:1008–1027, 1972.

Vawter, D. L. Poisson's ratio and incompressibility.J. Biomech. Eng. 105:194–195, 1983.

Vito, R. P., and J. Hickey. The mechanical properties of soft tissues-II: The elastic response of arterial segments.J. Biomech. 13:951–957, 1980

Vorp, D. A., K. R. Rajagopal, P. J. Smolinski, and H. S. Borovetz. Identification of elastic properties of homogeneous orthotropic vascular segments in distention.J. Biomech. 28:501–512, 1995.

Wolf, Y. G., W. S. Thomas, F. J. Brennan, W. G. Goff, and E. F. Bernstein. Computer topography scanning findings associated with rapid expansion of abdominal aortic aneurysms.J. Vasc. Surg. 20:529–535, 1994.