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200 00$aTributes to Yuan-Cheng Fung on his 90th birthday$b[electronic resource] $ebiomechanics : from molecules to man /$feditors, Shu Chien ... [et al.]
210   $aHackensack, N.J. $cWorld Scientific$dc2010
215   $a1 online resource (361 p.)
300   $aDescription based upon print version of record.
311   $a981-4289-87-6 
320   $aIncludes bibliographical references.
327   $aCONTENTS; Preface; Chapter 1: Physical Mechanisms of Soft Tissues Rheological Properties Yoram Lanir; 1. Introduction; 2. Analysis and Results; 2.1. Tissues Nonlinear Stress-Strain Relationship; 2.2. Tissues Quasi-Linear Viscoelasticity; 2.3. Tissues Preconditioning; 2.4. Tissues Residual Stress; 3. Discussion and Conclusions; References; Chapter 2: Biomechanics of an Isolated Single Stress Fiber Masaaki Sato and Shinji Deguchi; 1. Introduction; 2. Materials and Methods; 2.1. Cell culture; 2.2. Isolation of stress fiber; 2.3. Tensile test of stress fiber; 3. Results and Discussion; References
327   $aChapter 3: The Origin of Pre-Stress in Biological Tissues - A Mechano-Electrochemical Model: A Tribute to Professor Y.C. Fung Leo Q. Wan, X. Edward Guo and Van C. Mow1. Introduction; 2. Methods; 3. Results; 3.1. Variation of Curvature and Stretch with Saline Concentration; 3.2. Roles of FCD Inhomogeneity and High Stiffness of Superficial Layer; 4. Discussion; Acknowledgments; References; Chapter 4: How Blood Flow Shapes Neointima Shu Q. Liu and Y. C. Fung; 1. Introduction; 2. Role of Fluid Shear Stress in Controlling Thrombus and Neointima Formation
327   $a3. Influence of Fluid Shear Stress on Smooth Muscle Cell Proliferation and Migration4. Role of PDGF Signaling Pathways in Mediating Smooth Muscle Cell Proliferation and Migration in Response to Non-uniform Fluid Shear Stress; 5. Concluding Remarks; References; Chapter 5: Illuminating a Path: Role of Biomechanics in Understanding Adaptive Remodeling in the Microcirculation Thomas C. Skalak; 1. Let There Be Light - UCSD, Dr. Fung, and Biomechanics; 2. First Meeting with Dr. Fung; 3. A Great Mentor; 4. Memories; 5. Influences; References
327   $aChapter 6: Computational Simulations of the Buckling of Oval and Tapered Arteries Avione Northcutt, Parag Datir and Hai-Chao Han1. Introduction; 2. Methods; 2.1. Artery Models; 2.2. Material Model; 2.3. Loads and Boundary Conditions; 2.4. Finite Element Analysis; 3. Results; 3.1. Buckling of Circular Cylindrical Arteries; 3.2. The Effect of Oval Cross-Section; 3.3. The Effect of Vessel Tapering; 4. Discussion; 4.1. Clinical Relevance; 4.2. Limitations; 4.3. Significance; Acknowledgments; References
327   $aChapter 7: Role of Structural and Signaling Molecules in Cardiac Mechanotransduction Anna M. Raskin, Andrew D. McCulloch and Jeffrey H. Omens1. Introduction; 2. Cardiac Hypertrophy; 3. Myocardial Stress and Strain Regulate Cardiac Muscle Growth; 4. Mechanotransduction; 4.1. Role of the nucleus in mechanotransduction; 4.2. Role of z-disk and sarcomeric proteins in mechanotransduction; 4.2.1. Titin; 4.2.2. Muscle LIM protein; 4.2.3. Four and a half LIM domain protein; 4.2.4. Troponin C; 4.3. Role of sarcolemmal proteins in mechanotransduction; 4.3.1. Integrins; 4.3.2. Phospholipase C
327   $a4.3.3. G-protein coupled receptors
330   $aThis book is a tribute to Professor Yuan-Cheng Fung, the Father of Biomechanics and a pioneer in Bioengineering, in honor of his 90th Birthday. The book consists of articles contributed by his colleagues, students, friends and family. These articles illustrate Professor Fung's profound influence on outstanding leaders in bioengineering, especially biomechanics, and on the life and work of all people who have been in contact with him. The scientific topics covered range from fundamentals of science and engineering (e.g., residual stress, flow dynamics, and cellular signaling) to clinical disor
606   $aBiomechanics
608   $aElectronic books.
615  0$aBiomechanics.
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