Lymphatic system flows JE Moore Jr, CD Bertram Annual review of fluid mechanics 50, 459-482, 2018 | 293 | 2018 |
Mapping of instabilities during flow through collapsible tubes CD Bertram, CJ Raymond, TJ Peldey J. Fluids Struct 4, 125-154, 1989 | 173* | 1989 |
Mapping of instabilities for flow through collapsed tubes of differing length CD Bertram, CJ Raymond, TJ Pedley J. Fluids & Structures 4, 125–153, 1990 | 172 | 1990 |
A mathematical model of unsteady collapsible tube behaviour CD Bertram, TJ Pedley J. Biomech. 15, 39–50, 1982 | 164 | 1982 |
Blood flow in pulmonary veins: III Simultaneous measurements of their dimensions, intravascular pressure and flow B Rajagopalan, CD Bertram, T Stallard, G Lee Cardiovascular research 13 (12), 684, 1979 | 125 | 1979 |
Transitional flow at the venous anastomosis of an arteriovenous graft: potential activation of the ERK1/2 mechanotransduction pathway F Loth, PF Fischer, N Arslan, CD Bertram, SE Lee, TJ Royston, RH Song, ... ASME J. Biomech. Eng. 125 (1), 49–61, 2003 | 116 | 2003 |
Unstable equilibrium behaviour in collapsible tubes CD Bertram J. Biomech. 19, 61–69, 1986 | 114 | 1986 |
The origins of syringomyelia: numerical models of fluid/structure interactions in the spinal cord CD Bertram, AR Brodbelt, MA Stoodley | 104 | 2005 |
Application of nonlinear dynamics concepts to the analysis of self-excited oscillations of a collapsible tube conveying a fluid CD Bertram, CJ Raymond, TJ Pedley J. Fluids & Structures 5, 391–426, 1991 | 100 | 1991 |
Three-dimensional collapse and steady flow in thick-walled collapsible tubes A Marzo, XY Luo, CD Bertram J Fluids Struct. 20 (6), 817-835, 2005 | 99 | 2005 |
Three-dimensional collapse and steady flow in thick-walled flexible tubes A Marzo, XY Luo, CD Bertram J. Fluids & Structures 20 (6), 817–835, 2005 | 99 | 2005 |
The effects of wall thickness, axial strain and end proximity on the pressure-area relation of collapsible tubes CD Bertram J. Biomech. 20, 863–876, 1987 | 96 | 1987 |
Simulation of a chain of collapsible contracting lymphangions with progressive valve closure CD Bertram, C Macaskill, JE Moore Jr | 89 | 2011 |
The relation between arterial viscoelasticity and wave propagation in the canine femoral artery in vivo WR Milnor, CD Bertram Circulation Res. 43, 870–879, 1978 | 86 | 1978 |
The onset of flow-rate limitation and flow-induced oscillations in collapsible tubes CD Bertram, J Tscherry Journal of fluids and structures 22 (8), 1029-1045, 2006 | 83 | 2006 |
Flow-induced oscillation of collapsed tubes and airway structures CD Bertram Respiratory Physiol. & Neurobiol. 163 (1–3), 256–265, 2008 | 74 | 2008 |
The mechanisms by which pulsatile flow affects crossflow microfiltration H Li, CD Bertram, DE Wiley AIChE J. 44, 1950–1961, 1998 | 70 | 1998 |
Syringomyelia: a review of the biomechanics NSJ Elliott, CD Bertram, BA Martin, AR Brodbelt Journal of Fluids and Structures 40, 1-24, 2013 | 66 | 2013 |
Parameter sensitivity analysis of a lumped-parameter model of a chain of lymphangions in series S Jamalian, CD Bertram, WJ Richardson, JE Moore Jr American Journal of Physiology-Heart and Circulatory Physiology 305 (12 …, 2013 | 63 | 2013 |
Flux enhancement in crossflow microfiltration using a collapsible-tube pulsation generator CD Bertram, MR Hoogland, H Li, RA Odell, AG Fane J. Membrane Sci. 84, 279–292, 1993 | 62 | 1993 |