Biomedical Engineering Reference
In-Depth Information
[26] Ericksen J.E., Rivlin R.S.: Large elastic deformations of homogeneous anisotropic materials.
J. Rat. Mech. Anal. 3 : 281-301, 1954.
[27] Federico S., Herzog W.: Towards an analytical model of soft biological tissues. Journal of
biomechanics 41 (16): 3309-3313, 2008.
[28] Finlay H., McCullough L., Canham P.: Three-dimensional collagen organization of human
brain arteries at different transmural pressures. J. Vasc. Res. 32 : 301-312, 1995.
[29] Finlay H.M., McCullough L., Canham P.B.: Three-dimensional collagen organization of
human brain arteries at different transmural pressures. J. Vasc. Res. 32 : 301-312, 1995.
[30] Fonck E., Feigl G.G., Fasel J., Sage D., Unser M., Rufenacht D.A., Stergiopulos N.: Effect
of aging on elastin functionality in human cerebral arteries. Stroke 40 (7): 2552-2556, 2009.
[31] Fonck E., Prod'hom G., Roy S., Augsburger L., Rufenacht D.A., Stergiopulos N.: Effect of
elastin degradation on carotid wall mechanics as assessed by a constituent-based biomechan-
ical model. American Journal Of Physiology. Heart And Circulatory Physiology 292 (6):
H2754-2763, 2007.
[32] Freed A., Einstein D., Vesely I.: Invariant formulation for dispersed transverse isotropy in
aortic heart valves. Biomechanics and Modeling in Mechanobiology 4 (2): 100-117, 2005.
[33] Gao L., Hoi Y., Swartz D.D., Kolega J., Siddiqui A., Meng H.: Nascent aneurysm formation
at the basilar terminus induced by hemodynamics. Stroke; A Journal Of Cerebral Circulation
39 (7): 2085-2090, 2008.
[34] Gasser C.T., Holzapfel G.: Modeling plaque fissuring and dissection during balloon angio-
plasty intervention. Annals of Biomedical Engineering 35 (5): 711-723, 2007.
[35] Gasser C.T., Ogden R.W., Holzapfel G.A.: Hyperelastic modelling of arterial layers with
distributed collagen fibre orientations. Journal Of The Royal Society, Interface / The Royal
Society 3 (6): 15-35, 2006.
[36] Gasser T.C., Holzapfel G.: A rate-independent elastoplastic constitutive model for biological
fibre-reinforced composites at finite strains: continuum basis, algorithmic formulation and
finite element implementation. Computational Mechanics 29 (4-5): 340-360 , 2002.
[37] Gleason R.L., Humphrey J.: A 2D constrained mixture model for arterial adaptations to large
changes in flow, pressure and axial stretch. Mathematical Medicine And Biology: A Journal
Of The IMA 22 (4): 347-369, 2005.
[38] Gleason R.L., Taber L.A., Humphrey J.D.: A 2-d model of flow-induced alterations in the
geometry, structure, and properties of carotid arteries. Journal of Biomechanical Engineering
126 (3): 371-381, 2004.
[39] Goktepe S., Miehe C.: A micro-macro approach to rubber-like materials. part iii: The micro-
sphere model of anisotropic mullins-type damage. Journal of the Mechanics and Physics of
Solids 53 (10): 2259-2283, 2005.
[40] Gonzalez J., Briones A., Starcher B., Conde M., Somoza B., Daly C., Vila E., McGrath I.,
Arribas S.: Influence of elastin on rat small artery mechanical properties. Exp Physiol 90 :
463-8, 2005.
[41] Greenwald S.E.: Ageing of the conduit arteries. The Journal of pathology 211 (2): 157-172,
2007.
[42] Gundiah N., Ratcliffe M.B., Pruitt L.: Determination of strain energy function for arterial
elastin: Experiments using histology and mechanical tests. Journal of Biomechanics 40 (3):
586-594, 2007.
[43] Gundiah N., Ratcliffe M.B., Pruitt L.A.: The biomechanics of arterial elastin. Journal of the
Mechanical Behavior of Biomedical Materials 2 (3): 288-296, 2009.
[44] Hadjinikolaou L., Kotidis K., Galinanes M.: Relationship between reduced elasticity of ex-
tracardiac vessels and left main stem coronary artery disease. European heart journal 25 (6):
508-513, 2004.
[45] Hart W., Goldbaum M., Cote B., Kube P., Nelson M.: Measurement and classification of
retinal vascular tortuosity. International Journal of Medical Informatics 53 : 239-252, 1999.
[46] Hashimoto N., Kim C., Kikuchi H., Kojima M., Kang Y., Hazama F.: Experimental induc-
tion of cerebral aneurysms in monkeys. Journal of Neurosurgery 67 (6): 903-905, 1987.
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