Transport Phenomena in Biological Systems

Name: Transport Phenomena in Biological Systems
Author: George A Truskey

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Gebonden, blz. | Engels

Pearson Education | e druk, 2009

ISBN13: 9780131569881

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Pearson Education e druk, 2009 9780131569881

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The efficient transport of molecules is essential for the normal function of cells and organs and the design of devices for medical applications and biotechnology. Transport Phenomena in Biological Systems provides an introduction to the integrated study of transport processes and their biological applications.

The book consists of four sections, which cover physiological fluid mechanics, mass transport, biochemical interactions and reactions and the effect of mass transfer, and transport in organs and whole organisms. In order to provide students with a firm understanding of biological transport processes, engineering concepts are provided within the context of specific biological problems. Examples and problems elaborate on the concepts in the text or develop new concepts. The introductory chapter presents a brief overview of transport processes at the cell and tissue level and relevant concepts in cell biology and physiology are presented throughout the text. An appendix provides an overview of relevant mathematical concepts used in the text. The problems at the end of each chapter require either analytical solution or numerical solution using MATLAB®.

This book can be used for both introductory and advanced courses. Advanced topics covered include transport in the kidney, oxygen transport, receptor-mediated processes, cell adhesion, transport of drugs in tumors, and whole body pharmacokinetic models. References are provided for further study.

Specificaties

ISBN13:9780131569881

Taal:Engels

Bindwijze:Gebonden

Uitgever:Pearson Education

Inhoudsopgave

<p style="MARGIN: 0px">Previous Edition TOC </p> <p style="MARGIN: 0px"><br> 1. Introduction. <br></p> <p style="MARGIN: 0px">A. INTRODUCTION TO PHYSIOLOGICAL FLUID MECHANICS. </p> <div style="MARGIN-LEFT: 0.2in">  2. Conservation and Momentum Balances. </div> <br> <div style="MARGIN-LEFT: 0.2in">  3. Conservation Relations for Fluid Transport, Dimensional Analysis and Scaling. </div> <br> <div style="MARGIN-LEFT: 0.2in">  4. Macroscopic Form of Conservation Relations and Applications of Momentum Transport. </div> <br> <div style="MARGIN-LEFT: 0.2in">  5. Fluid Flow in the Circulation and Tissues. </div> <br> <p style="MARGIN: 0px">B. FUNDAMENTALS AND APPLICATIONS OF MASS TRANSPORT. </p> <div style="MARGIN-LEFT: 0.2in">  6. Introduction to Mass Transport. </div> <br> <div style="MARGIN-LEFT: 0.2in">  7. Diffusion with Convection or Electrical Potentials. </div> <br> <div style="MARGIN-LEFT: 0.2in">  8. Transport in Porous Media. </div> <br> <div style="MARGIN-LEFT: 0.2in">  9. Transvascular Transport. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 10. Solvent and Solute Transport across the Kidney Glomerulus. </div> <br> <p style="MARGIN: 0px">C. THE EFFECT OF MASS TRANSPORT UPON BIOCHEMICAL INTERACTIONS. </p> <div style="MARGIN-LEFT: 0.2in"> 11. Mass Transport and Biochemical Interactions. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 12. Oxygen Transport from the Lungs to the Tissues. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 13. Ligand-Receptor Kinetics on the Cell Surface and Molecular Transport within Cells. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 14. Cell Adhesion and Cell Signaling. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 15. Transport of Drugs and Macromolecules in Tumors. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 16. Transport in Organs and Organisms. </div> <br> <div style="MARGIN-LEFT: 0.2in"> 17. Heat Transfer in Biological Systems. </div> <br> <div style="MARGIN-LEFT: 0.2in"> Appendix. Relevant Mathematical Concepts. </div>

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