A model incorporating some of the mechanical and biochemical factors underlying clot formation and dissolution in flowing blood.
Anand, M., Rajagopal, K., Rajagopal, K.R. (2003)
Journal of Theoretical Medicine
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Displaying similar documents to “Mathematical modelling of profiled haemodialysis: A simplified approach.”
A model incorporating some of the mechanical and biochemical factors underlying clot formation and dissolution in flowing blood.
Physiological interpretation of solute transport parameters for peritoneal dialysis.
Waniewski, Jacek (2001)
Journal of Theoretical Medicine
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A mathematical model for fluid-glucose-albumin transport in peritoneal dialysis
Roman Cherniha, Joanna Stachowska-Piętka, Jacek Waniewski (2014)
International Journal of Applied Mathematics and Computer Science
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Numerical simulation of the coagulation dynamics of blood.
Bodnár, T., Sequeira, A. (2008)
Computational & Mathematical Methods in Medicine
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Mathematical model of airflow in the lungs of children II: Effects of ventilatory parameters.
Guan, X., Segal, R.A., Shearer, M., Martonen, T.B. (2000)
Journal of Theoretical Medicine
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Modelling of peripheral fluid accumulation after a crystalloid bolus in female volunteers. A mathematical study.
Rodhe, Peter, Drobin, Dan, Hahn, Robert G., Wennberg, Bernt, Lindahl, Christina, Sjöstrand, Fredrik, Svensen, Christer H. (2010)
Computational & Mathematical Methods in Medicine
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Mathematical modeling and simulation of flow in domains separated by leaky semipermeable membrane including osmotic effect
Jaroslav Hron, Maria Neuss-Radu, Petra Pustějovská (2011)
Applications of Mathematics
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In this paper, we propose a mathematical model for flow and transport processes of diluted solutions in domains separated by a leaky semipermeable membrane. We formulate transmission conditions for the flow and the solute concentration across the membrane which take into account the property of the membrane to partly reject the solute, the accumulation of rejected solute at the membrane, and the influence of the solute concentration on the volume flow, known as osmotic effect. The model...
Mathematical model of airflow in the lungs of children. I: Effects of tumor sizes and locations.
Segal, R.A., Guan, X., Shearer, M., Martonen, T.B. (2000)
Journal of Theoretical Medicine
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An anisotropic constitutive equation for the stress tensor of blood based on mixture theory.
Massoudi, Mehrdad, Antaki, James F. (2008)
Mathematical Problems in Engineering
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Exact solution of convective mass transfer model for calcium response of endothelium.
Kumar, Vineet, Pandey, R.N., Upadhyay, S.N. (2000)
Mathematical Problems in Engineering
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A model of dispersion in perifusion systems.
Shorten, Paul R., Wall, David J.N. (2001)
Journal of Theoretical Medicine
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