Matematický model jaterní chromoexkreční funkce
Displaying 921 – 940 of 1854
Matematika dokonale ukrytá v počítačové tomografii
Vítězslav Vít Vlček, Karel Segeth (2008)
Pokroky matematiky, fyziky a astronomie
Mathematical analysis of a within-host model of malaria with immune effectors and Holling type II functional response
F. Gazori, M. Hesaaraki (2015)
Applicationes Mathematicae
In this paper, we consider a within-host model of malaria with Holling type II functional response. The model describes the dynamics of the blood-stage of parasites and their interaction with host cells, in particular red blood cells and immune effectors. First, we obtain equilibrium points of the system. The global stability of the disease-free equilibrium point is established when the basic reproduction ratio of infection is R₀< 1. Then the disease is controllable and dies out. In the absence...
Mathematical and biological modelling of RNA secondary structure and its effects on gene expression.
Hughes, T.A., McElwaine, J.N. (2006)
Computational & Mathematical Methods in Medicine
Mathematical and Computational Models in Tumor Immunology
F. Pappalardo, A. Palladini, M. Pennisi, F. Castiglione, S. Motta (2012)
Mathematical Modelling of Natural Phenomena
The immune system is able to protect the host from tumor onset, and immune deficiencies are accompanied by an increased risk of cancer. Immunology is one of the fields in biology where the role of computational and mathematical modeling and analysis were recognized the earliest, beginning from 60s of the last century. We introduce the two most common methods in simulating the competition among the immune system, cancers and tumor immunology strategies:...
Mathematical and computer modelling of mechanisms regulating blood flow at microcirculation level [Abstract of thesis]
K. Hnátková (1990)
Commentationes Mathematicae Universitatis Carolinae
Mathematical and numerical analysis of a model for anti-angiogenic therapy in metastatic cancers
Sébastien Benzekry (2012)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
We introduce a phenomenological model for anti-angiogenic therapy in the treatment of metastatic cancers. It is a structured transport equation with a nonlocal boundary condition describing the evolution of the density of metastases that we analyze first at the continuous level. We present the numerical analysis of a lagrangian scheme based on the characteristics whose convergence establishes existence of solutions. Then we prove an error estimate and use the model to perform interesting simulations...
Mathematical and numerical analysis of a model for anti-angiogenic therapy in metastatic cancers
Sébastien Benzekry (2012)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
We introduce a phenomenological model for anti-angiogenic therapy in the treatment of metastatic cancers. It is a structured transport equation with a nonlocal boundary condition describing the evolution of the density of metastases that we analyze first at the continuous level. We present the numerical analysis of a lagrangian scheme based on the characteristics whose convergence establishes existence of solutions. Then we prove an error estimate and use the model to perform interesting simulations...
Mathematical and numerical analysis of a model for anti-angiogenic therapy in metastatic cancers
Sébastien Benzekry (2011)
ESAIM: Mathematical Modelling and Numerical Analysis
We introduce a phenomenological model for anti-angiogenic therapy in the treatment of metastatic cancers. It is a structured transport equation with a nonlocal boundary condition describing the evolution of the density of metastases that we analyze first at the continuous level. We present the numerical analysis of a lagrangian scheme based on the characteristics whose convergence establishes existence of solutions. Then we prove an error estimate and use the model to perform interesting simulations...
Mathematical and numerical modeling of early atherosclerotic lesions***
Vincent Calvez, Jean Gabriel Houot, Nicolas Meunier, Annie Raoult, Gabriela Rusnakova (2010)
ESAIM: Proceedings
This article is devoted to the construction of a mathematical model describing the early formation of atherosclerotic lesions. The early stage of atherosclerosis is an inflammatory process that starts with the penetration of low density lipoproteins in the intima and with their oxidation. This phenomenon is closely linked to the local blood flow dynamics. Extending a previous work [5] that was mainly restricted to a one-dimensional setting, we couple...
Mathematical Biology Education: Modeling Makes Meaning
J. R. Jungck (2011)
Mathematical Modelling of Natural Phenomena
This special issue of Mathematical Modelling of Natural Phenomena on biomathematics education shares the work of fifteen groups at as many different institutions that have developed beautiful biological applications of mathematics that are different in three ways from much of what is currently available. First, many of these selections utilize current research in biomathematics rather than the well-known textbook examples that are at least a half-century old. Second, the selections focus on modules...
Mathematical description of adhesion of lymphocytes flowing through a glass bead column
J. Doroszewski, J. Jakubas, W. Szlenk (1982)
Applicationes Mathematicae
Mathematical framework for current density imaging due to discharge of electro-muscular disruption devices
Jeehyun Lee, Jin Keun Seo, Eung Je Woo (2007)
ESAIM: Mathematical Modelling and Numerical Analysis
Electro-muscular disruption (EMD) devices such as TASER M26 and X26 have been used as a less-than-lethal weapon. Such EMD devices shoot a pair of darts toward an intended target to generate an incapacitating electrical shock. In the use of the EMD device, there have been controversial questions about its safety and effectiveness. To address these questions, we need to investigate the distribution of the current density J inside the target produced by the EMD device. One approach is to develop a computational...
Mathematical methods of calculation used in computational chemistry.
Ursaleş, Traian-Nicola (2002)
Acta Universitatis Apulensis. Mathematics - Informatics
Mathematical model for HIV/AIDS with complacency in a population with declining prevalence.
Baryarama, F., Mugisha, J.Y.T., Luboobi, L.S. (2006)
Computational & Mathematical Methods in Medicine
Mathematical model for the basilar membrane as a two dimensional plate.
Alkahby, H.Y., Mahrous, M.A., Mamo, B. (1999)
Electronic Journal of Differential Equations (EJDE) [electronic only]
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
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
Mathematical model of an immune system with random time of reaction
U Foryś (1991)
Applicationes Mathematicae
Mathematical Model of Blood Flow in an Anatomically Detailed Arterial Network of the Arm
Sansuke M. Watanabe, Pablo J. Blanco, Raúl A. Feijóo (2013)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
A distributed-parameter (one-dimensional) anatomically detailed model for the arterial network of the arm is developed in order to carry out hemodynamics simulations. This work focuses on the specific aspects related to the model set-up. In this regard, stringent anatomical and physiological considerations have been pursued in order to construct the arterial topology and to provide a systematic estimation of the involved parameters. The model comprises 108 arterial segments, with 64 main arteries...