## Mathematical BiologyIn recent years, mathematics has been used in solving various real life problems. In particular, mathematical modelling plays a key role in the analysis of physiological/biological/mechanical systems. Diverse topics such as arterial blood flow, cardio-electric activity, bio-convection, gene coding, epidemic infection and body imaging can all be studied from a mathematical viewpoint. Progress in this field requires regular updated research and "Mathematical Biology" provides us with the latest developments and applications. It promotes interdisciplinary approaches to the study of biological systems using a variety of mathematical tools and numerical simulation. With 47 chapters from international contributors, this book will be a useful addition to the shelf of postgraduate medics and biologists, researchers and mathematicians with an interest outside mathematics! |

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### Contents

A Nonlinear Model for Analysis of Viscosity Bolus Data | 1 |

Modelling Pollutant Gas Transport and Absorption in Pulmonary Airways | 9 |

Numerical Simulation of Peripheral Circulation and Substance Transfer with | 22 |

Copyright | |

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adhesins amplitude analysis analyzed aneurysm antibody artery asymptotically stable axial axonal bilayer binding Biol biological biomass blood flow bolus Boolean circuit cardiac cascade cells cluster coefficient computed concentration considered constant curves cycle database decrease density detection diffusion dispersion distribution domain DPPC dynamics effect environment enzyme epitopes equations equilibrium point experimental fluid frequency function gene genome growth rate hematocrit Hill coefficient human increases India Abstract infected input interactions islets layer leaflet lipid Math mathematical model matrix membrane method molecular mutations normal observed obtained parameters peptide phase phosphatases phytoplankton pollutants population population density positive predator predator-prey pressure prey protein tyrosine phosphatase proteins PSI-BLAST R-R intervals ratio region residues sequence shear stress shown in Fig signal simulation solution species stability steady stenosis structure temperature TG/CA Theorem tissue toxicant tryptophan tube uptake values valve variation velocity vesicle vessel viscosity