edited by Y C Fung (University of California, San Diego)

Table of Contents (94k)
Preface (96k)
To the Instructor (50k)
To the Students (55k)
Chapter 1:Roles of Flow Mechanics in Vascular Cell Biology in Health and Disease (172k)
Chapter 1.1: Role of Homodynamic Factors in Transendothelial Permeability of Macromolecules (470k)
Chapter 1.2: Effects of Shear Stress on Monocyte Chemotactic Protein-1 (MCP-1) Gene Expression (529k)
Chapter 1.3: Effects of Shear Stress on MAPK Signaling Pathways (206k)
Chapter 1.4: Mechano-sensors for Shear Stress (172k)
Chapter 1.5: Effects of Complex Flow Pattern on Endothelial Cell Proliferation and Gene Expression (169k)
Chapter 1.6: Implications in Clinical Conditions (141k)
Chapter 1.7: Summary and Conclusions (129k)

About the Editor

Y C Fung is the first bioengineer to win the prestigious National Medal of Science, the nation's highest honor for work in science, from then US President Bill Clinton in the year 2000.
 

Bioengineering is attracting many high quality students. This invaluable book has been written for beginning students of bioengineering, and is aimed at instilling a sense of engineering in them.

Engineering is invention and designing things that do not exist in nature for the benefit of humanity. Invention can be taught by making inventive thinking a conscious part of our daily life. This is the approach taken by the authors of this book. Each author discusses an ongoing project, and gives a sample of a professional publication. Students are asked to work through a sequence of assignments and write a report. Almost everybody soon realizes that more scientific knowledge is needed, and a strong motivation for the study of science is generated. The teaching of inventive thinking is a new trend in engineering education. Bioengineering is a good field with which to begin this revolution in engineering education, because it is a youthful, developing interdisciplinary field.

• Roles of Flow Mechanics in Vascular Cell Biology in Health and Disease (S Chien)
• Perspectives of Biomechanics (Y C Fung)
• The Implantable Glucose Sensor: An Example of Bioengineering Design (D A Gough)
• Design and Development of Artificial Blood (M Intalietta)
• Analysis of Coronary Circulation: A Bioengineering Approach (G S Kassab)
• What Lies Beyond Bioinformatics? (B Palsson)
• Tissue Engineering of Articular Cartilage (R L Sah)
• Cell Activation in the Circulation (G W Schmid-Schönbein)
• Molecular Basis of Cell Membrane Mechanics (L-P A Sung)
• Biomechanics of Injury and Healing (P Tong & Y C Fung)
• Pulsatile Blood Flow in the Lung Studied as an Engineering System (M R T Yen & W Huang)