Search Results - "Eberth, J.F"

Fundamental role of axial stress in compensatory adaptations by arteries by Humphrey, J.D, Eberth, J.F, Dye, W.W, Gleason, R.L

“…Abstract Arteries exhibit a remarkable ability to adapt to diverse genetic defects and sustained alterations in mechanical loading. For example, changes in…”
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Acute mechanical effects of elastase on the infrarenal mouse aorta: Implications for models of aneurysms by Collins, M.J, Eberth, J.F, Wilson, E, Humphrey, J.D

“…Abstract Intraluminal exposure of the infrarenal aorta to porcine pancreatic elastase represents one of the most commonly used experimental models of the…”
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Evolving biaxial mechanical properties of mouse carotid arteries in hypertension by Eberth, J.F, Cardamone, L, Humphrey, J.D

“…Abstract Quantifying the time course of load-induced changes in arterial wall geometry, microstructure, and properties is fundamental to developing…”
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Origin of axial prestretch and residual stress in arteries by Cardamone, L., Valentín, A., Eberth, J. F., Humphrey, J. D.

“…The structural protein elastin endows large arteries with unique biological functionality and mechanical integrity, hence its disorganization, fragmentation,…”
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The Association Between Curvature and Rupture in a Murine Model of Abdominal Aortic Aneurysm and Dissection by Lane, B.A., Uline, M.J., Wang, X., Shazly, T., Vyavahare, N.R., Eberth, J.F.

“…Background Mouse models of abdominal aortic aneurysm (AAA) and dissection have proven to be invaluable in the advancement of diagnostics and therapeutics by…”
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Consistent Biomechanical Phenotyping of Common Carotid Arteries from Seven Genetic, Pharmacological, and Surgical Mouse Models by Bersi, M. R., Ferruzzi, J., Eberth, J. F., Gleason, R. L., Humphrey, J. D.

“…The continuing lack of longitudinal histopathological and biomechanical data for human arteries in health and disease highlights the importance of studying the…”
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Importance of pulsatility in hypertensive carotid artery growth and remodeling by Eberth, John F, Gresham, Vincent C, Reddy, Anilkumar K, Popovic, Natasa, Wilson, Emily, Humphrey, Jay D

“…Arteries experience marked variations in blood pressure and flow during the cardiac cycle that can intensify during exercise, in disease, or with aging…”
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Chitosan and chitosan composites reinforced with carbon nanostructures by Brysch, C.N., Wold, E., Patterson, M., Ordoñez Olivares, R., Eberth, J.F., Robles Hernandez, F.C.

“…•Carbon additions and sintering conditions improve hardness from 15 to 26μHV.•Mechanical properties tuning is possible chitosan–carbon reinforced…”
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