The Arterial Circulation: Physical Principles and Clinical Applications

Chapter 1. INTRODUCTION. Historical View of Arterial Circulation. Recent Developments. Book Content. References. Chapter 2. PHYSIOLOGY AND RHEOLOGY OF ARTERIES. Anatomical and Structural Organization. Material Properties of the Arterial Wall: Elastin, Collagen, and Smooth Muscle Cells. Viscoelastic Properties of Blood Vessels. References. Chapter 3. THEORIES AND MODELS OF ARTERIAL CIRCULATION. Simple Windkessel Model of the Arterial System. Oscillatory Blood Flow in Arteries. Linear Theories of Blood Flow in Arteries. Analogy of Arterial Blood Flow to Transmission Line. Distributed and Reduced Arterial Tree Models. Nonlinear Aspects and Pressure-Dependent Arterial Compliance. References. Chapter 4. ARTERIAL PULSE TRANSMISSION CHARACTERISTICS. Pressure and Flow Waveforms in Large and Small Arteries. Vascular Impedance to Blood Flow. Pulse Propagation, Wave Velocity, and Damping. Pulse Wave Reflections and Reflection Sites. Pulse Transmission at Vascular Branching. Pulse Transmission to Vascular Beds. References. Chapter 5. HEMODYNAMIC MEASUREMENTS AND CLINICAL MONITORING. Invasive Blood Pressure Measurements. Noninvasive Blood Pressure Measurements. Blood Flow Measurements. Thermodilution Measurement of Cardiac Output. Vascular Ultrasound Dimension Measurement. References. Chapter 6. ARTERIAL CIRCULATION AND THE HEART. Coupling of Heart and Arterial System. Dynamic Heart-Arterial System Interactions and the Concept of Dynamic Arterial Compliance. Coronary Arterial Circulation. Hemodynamics and Modeling of Coronary Circulation. Myocardial Function and Arterial System Load. References. Chapter 7. NEW APPROACHES TO CLINICAL EVALUATIONS. Hypertension, Vascular Stiffness, and Arterial Compliance. Vascular Hemodynamics of Aging and Isolated Systolic Hypertension. Aortic Valve Stenosis and Arterial System Afterload on Left Ventricular Hypertrophy. Allometry and Its Diagnostic Applications. References. INDEX.