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Title: Oscillatory Flow in Arteries: the Constrained Elastic Tube as a Model of Arterial Flow and Pulse Transmission
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Physics in Medicine and Biology [0031-9155] Womersley, J R yr:1957


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1. WOMERSLEY, J R R. "Oscillatory flow in arteries. II. The reflection of the pulse wave at junctions and rigid inserts in the arterial system." Physics in medicine & biology 2.4 (1958): 313-23. Link to Full Text for this item Link to SFX for this item
2. WOMERSLEY, J R. "Oscillatory flow in arteries. III. Flow and pulse-velocity formulae for a liquid whose viscosity varies with frequency." Physics in medicine and biology 2.4 (1958): 374-382. Link to Full Text for this item Link to SFX for this item
3. WOMERSLEY, J R R. "Mathematical theory of oscillating flow in an elastic tube." The Journal of physiology 127.2 (1955): 37-8. Link to Full Text for this item Link to SFX for this item
4. Rohlf K, K. "The role of the Womersley number in pulsatile blood flow a theoretical study of the Casson model." Journal of Biomechanics 34.1 (2001): 141-148. Link to Full Text for this item Link to SFX for this item
5. Stergiopulos, N. "Computer simulation of arterial flow with applications to arterial and aortic stenoses." Journal of Biomechanics 25.12 (1993): 1477-88. Link to Full Text for this item Link to SFX for this item
6. WOMERSLEY, J R R. "Oscillatory flow in arteries: effect of radial variation in viscosity on rate of flow." The Journal of physiology 127.3 (1955): 38-9. Link to Full Text for this item Link to SFX for this item
7. Bowden, K W W. "The area ration of normal aortic junctions. Aortic configuration and pulse-wave reflection." The British journal of radiology (1971): 850-3. Link to SFX for this item
8. Westerhof, N. "Analog studies of the human systemic arterial tree." Journal of Biomechanics 2.2 (1969): 121-43. Link to Full Text for this item Link to SFX for this item
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10. WOMERSLEY, Yasuro R. "METHOD FOR THE CALCULATION OF VELOCITY, RATE OF FLOW AND VISCOUS DRAG IN ARTERIES WHEN THE PRESSURE GRADIENT IS KNOWN." The Journal of physiology 127.3 (1955): 553-563. Link to Full Text for this item Link to SFX for this item
11. WOMERSLEY, J R R. "Flow in the larger arteries and its relation to the oscillating pressure." The Journal of physiology 124.2 (1954): 31-2. Link to Full Text for this item Link to SFX for this item
12. Jou, L-D D. "Wall Shear Stress on Ruptured and Unruptured Intracranial Aneurysms at the Internal Carotid Artery." AJNR, American journal of neuroradiology 29.9 (2008): 1761-7. Link to Full Text for this item Link to SFX for this item
13. OGAWA, K. "NON-NEWTONIAN FLOW CHARACTERISTICS OF BLOOD IN THE SHEAR RATE RANGE OF 100-10,000-S(-1)." Journal of chemical engineering of Japan 27.5 (1994): 610-615. Link to SFX for this item
14. O'Rourke, M F F. "Vascular impedance in studies of arterial and cardiac function." Physiological reviews 62.2 (1982): 570-623. Link to SFX for this item
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16. Johnson, A.W. W. "Calculation of steady and oscillating flows in tubes using a vorticity transport algorithm." International journal for numerical methods in fluids 23.12 (1996): 1241-1262. Link to Full Text for this item Link to SFX for this item
17. REIVICH, M. "ARTERIAL PCO2 AND CEREBRAL HEMODYNAMICS." American journal of physiology 206.1 (1963): 25-35. Link to SFX for this item
18. Myers, L J J. "Analytical solution for pulsatile axial flow velocity waveforms in curved elastic tubes." IEEE transactions on bio-medical engineering 48.8 (2001): 864-73. Link to SFX for this item
19. Figueroa, TJR A. "A coupled momentum method for modeling blood flow in three-dimensional deformable arteries." Computer methods in applied mechanics and engineering 195.41-43 (2006): 5685-5706. Link to SFX for this item
20. Carmines, D V V. "A piece-wise non-linear elastic stress expression of human and pig coronary arteries tested in vitro." Journal of biomechanics 24.10 (1991): 899-906. Link to Full Text for this item Link to SFX for this item
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