Ebook: Nonlinear Dynamics in Physiology and Medicine
- Tags: Mathematical and Computational Biology, Neurosciences, Neurobiology, Biophysics and Biological Physics
- Series: Interdisciplinary Applied Mathematics 25
- Year: 2003
- Publisher: Springer-Verlag New York
- Edition: 1
- Language: English
- pdf
This book deals with the application of mathematics in modeling and understanding physiological systems, especially those involving rhythms. It is divided roughly into two sections. In the first part of the book, the authors introduce ideas and techniques from nonlinear dynamics that are relevant to the analysis of biological rhythms. The second part consists of five in-depth case studies in which the authors use the theoretical tools developed earlier to investigate a number of physiological processes: the dynamics of excitable nerve and cardiac tissue, resetting and entrainment of biological oscillators, the effects of noise and time delay on the pupil light reflex, pathologies associated with blood cell replication, and Parkinsonian tremor. One novel feature of the book is the inclusion of classroom-tested computer exercises throughout, designed to form a bridge between the mathematical theory and physiological experiments.
This book will be of interest to students and researchers in the natural and physical sciences wanting to learn about the complexities and subtleties of physiological systems from a mathematical perspective.
The authors are members of the Centre for Nonlinear Dynamics in Physiology and Medicine. The material in this book was developed for use in courses and was presented in three Summer Schools run by the authors in Montreal.
This book deals with the application of mathematics in modeling and understanding physiological systems, especially those involving rhythms. It is divided roughly into two sections. In the first part of the book, the authors introduce ideas and techniques from nonlinear dynamics that are relevant to the analysis of biological rhythms. The second part consists of five in-depth case studies in which the authors use the theoretical tools developed earlier to investigate a number of physiological processes: the dynamics of excitable nerve and cardiac tissue, resetting and entrainment of biological oscillators, the effects of noise and time delay on the pupil light reflex, pathologies associated with blood cell replication, and Parkinsonian tremor. One novel feature of the book is the inclusion of classroom-tested computer exercises throughout, designed to form a bridge between the mathematical theory and physiological experiments.
This book will be of interest to students and researchers in the natural and physical sciences wanting to learn about the complexities and subtleties of physiological systems from a mathematical perspective.
The authors are members of the Centre for Nonlinear Dynamics in Physiology and Medicine. The material in this book was developed for use in courses and was presented in three Summer Schools run by the authors in Montreal.
This book deals with the application of mathematics in modeling and understanding physiological systems, especially those involving rhythms. It is divided roughly into two sections. In the first part of the book, the authors introduce ideas and techniques from nonlinear dynamics that are relevant to the analysis of biological rhythms. The second part consists of five in-depth case studies in which the authors use the theoretical tools developed earlier to investigate a number of physiological processes: the dynamics of excitable nerve and cardiac tissue, resetting and entrainment of biological oscillators, the effects of noise and time delay on the pupil light reflex, pathologies associated with blood cell replication, and Parkinsonian tremor. One novel feature of the book is the inclusion of classroom-tested computer exercises throughout, designed to form a bridge between the mathematical theory and physiological experiments.
This book will be of interest to students and researchers in the natural and physical sciences wanting to learn about the complexities and subtleties of physiological systems from a mathematical perspective.
The authors are members of the Centre for Nonlinear Dynamics in Physiology and Medicine. The material in this book was developed for use in courses and was presented in three Summer Schools run by the authors in Montreal.
Content:
Front Matter....Pages i-xxvi
Theoretical Approaches in Physiology....Pages 1-7
Introduction to Dynamics in Nonlinear Difference and Differential Equations....Pages 9-39
Bifurcations Involving Fixed Points and Limit Cycles in Biological Systems....Pages 41-85
Dynamics of Excitable Cells....Pages 87-121
Resetting and Entraining Biological Rhythms....Pages 123-148
Effects of Noise on Nonlinear Dynamics....Pages 149-189
Reentry in Excitable Media....Pages 191-232
Cell Replication and Control....Pages 233-269
Pupil Light Reflex: Delays and Oscillations....Pages 271-301
Data Analysis and Mathematical Modeling of Human Tremor....Pages 303-355
Back Matter....Pages 357-435
This book deals with the application of mathematics in modeling and understanding physiological systems, especially those involving rhythms. It is divided roughly into two sections. In the first part of the book, the authors introduce ideas and techniques from nonlinear dynamics that are relevant to the analysis of biological rhythms. The second part consists of five in-depth case studies in which the authors use the theoretical tools developed earlier to investigate a number of physiological processes: the dynamics of excitable nerve and cardiac tissue, resetting and entrainment of biological oscillators, the effects of noise and time delay on the pupil light reflex, pathologies associated with blood cell replication, and Parkinsonian tremor. One novel feature of the book is the inclusion of classroom-tested computer exercises throughout, designed to form a bridge between the mathematical theory and physiological experiments.
This book will be of interest to students and researchers in the natural and physical sciences wanting to learn about the complexities and subtleties of physiological systems from a mathematical perspective.
The authors are members of the Centre for Nonlinear Dynamics in Physiology and Medicine. The material in this book was developed for use in courses and was presented in three Summer Schools run by the authors in Montreal.
Content:
Front Matter....Pages i-xxvi
Theoretical Approaches in Physiology....Pages 1-7
Introduction to Dynamics in Nonlinear Difference and Differential Equations....Pages 9-39
Bifurcations Involving Fixed Points and Limit Cycles in Biological Systems....Pages 41-85
Dynamics of Excitable Cells....Pages 87-121
Resetting and Entraining Biological Rhythms....Pages 123-148
Effects of Noise on Nonlinear Dynamics....Pages 149-189
Reentry in Excitable Media....Pages 191-232
Cell Replication and Control....Pages 233-269
Pupil Light Reflex: Delays and Oscillations....Pages 271-301
Data Analysis and Mathematical Modeling of Human Tremor....Pages 303-355
Back Matter....Pages 357-435
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