Modeling Electrochemical Dynamics and Signaling Mechanisms in Excitable Cells with Pathological Case Studies covers the neuronal cell communication system in excitable cells, recognizing the most relevant mechanisms of cell communication. Along with new findings in biotechnology, medicine and pathological cases for clinicians, the book highlights electrochemical potential in� living nerve and muscle cells. Written for physiological scientists, pharmaceutical scientists, medical doctors, biologists and physicists, this book an essential read for a real understanding of the signals as we see them.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
1. Introduction 2. Statistical Dynamics and Diffusion of Small Molecules 3. Function of Membrane and Protein Synthesis in the Cell 4. Redox Reactions and ATP Synthesis in the Cell 5. Resting Electric Potential and Ionic Currents in the Cell 6. Electrochemical Conduction in Neurons and Neuronal Communications 7. Electrochemical Signaling Mechanism in Cardiac Muscle 8. Mechanism of Muscle Contraction and Disorder 9. Gas Exchange and Respiratory Insufficiency 10. Electrochemical Mechanism of Arrhythmias and Antiarrhythmic Drugs
Authors
Tetsuya Watanabe President, Watanabe Institute of Mathematical Biology and Watanabe Clinic of Oral Surgery, Japan. Dr. Tetsuya Watanabe is the President of Watanabe Institute of Mathematical Biology and Watanabe Clinic of Oral Surgery in Hamamatsu, Japan. He graduated from Kanagawa Dental College and holds a DDS degree in dental medicine. He received Postgraduate Training and Fellowship Appointments and successively Faculty Appointments of Associate and Assistant Professor at the Department of Pharmacology, Medical School, University of Pennsylvania, in Philadelphia, USA.Dr. Watanabe is the recent author of Biophysical Basis of Physiology and Calcium Signaling Mechanism in Cardiac and Smooth Muscle, published by Elsevier/Academic Press in 2018.