The Arterial Circulation
Physical Principles and Clinical Applications
Published on 5. May 2000
Book
Hardback
XI, 271 pages
978-0-89603-633-8 (ISBN)
Description
After yet another decade of leaming, experimenting, and inves tigating since my first book, Arterial System Dynamics, the many new medical breakthroughs and technological advances have inspired me to write this book to bridge the gap between basic research and clinical applications. The application of physical principles and quantitative approaches to the understanding of the arterial circulation and its interactions with the heart in normal and diseased conditions form the basis of The Arterial Circulation. Knowledge of the physiology and rheology of arteries, as well as all of their structural-functional corre lates, is a necessary prerequisite to the proper hemodynamic interpretatiqn of pressure-flow relations and the pulsatile transmis sion characteristics in different arteries. The natural coupling and interactions of the heart, the coronary circulation, and the arterial system necessitate analysis of alterations to global functioning. Modeling provides a tool for isolating and predicting parameter changes and is employed throughout the book. Experimental data are provided for model validations, and also for more realistic interpretations. Techniques and new methods for clinical hemo dynamic measurement and diagnosis are included to help the reader un derstand the physical principles underlying such abnormal cardiovascular functions as hypertension, stenosis, and myocardial ischemia. The progressive changes in vascular properties during aging are also discussed. Modem approaches utilizing computer mode ling and allomery are presented with selected examples, such as combined hypertension and aortic valve stenosis, and ventricular hypertrophy.
Reviews / Votes
"Advances in clinical diagnostics and therapeutics, however, have made the need for a more complete understanding of this topic. . .In seven chapters, the author presents a synthesis of the current knowledge of arterial circulation, particularly its physical aspects. . .The author has provided an excellent synthesis of the current understanding of the physical principles of arterial circulation. The strength of this book is clear organization that allows a reader to either read it in entirety or to identify a topic of specific interest. The integration of the experimental data, computer modeling, and clinical application of this knowledge is particularly valuable. Each topic is defined, introduced, and reviewed, as are the major works that have led to the current understanding of that topic. . .This volume is a solid and readable overview of the major physical principles of arterial circulation. . .The challenge for both clinicians and physiologists is to integrate both the molecular and cellular aspects with the physical principles of the arterial system. A solid background in both disciplines will allow for a more complete understanding of the arterial system in both health and disease. This work should provide a solid background and reference for those faced with this challenge."-Doody's Health Sciences Book Review JournalMore details
Edition
2000 ed.
Language
English
Place of publication
Totowa
United States
Target group
College/higher education
Professional and scholarly
Professional/practitioner
Product notice
sewn/stitched
Cloth over boards
Illustrations
8 s/w Abbildungen
XI, 271 p. 8 illus.
Dimensions
Height: 236 mm
Width: 160 mm
Thickness: 26 mm
Weight
599 gr
ISBN-13
978-0-89603-633-8 (9780896036338)
DOI
10.1007/978-1-59259-034-6
Schweitzer Classification
Other editions
Additional editions
Book
11/2010
Humana Press Inc.
€117.69
Shipment within 15-20 days
E-Book
05/2000
Humana
€106.99
Available for download
Content
1 Introduction.- 1.1 Historical View of Arterial Circulation.- 1.2 Recent Developments.- 1.3 Book Content.- References.- 2 Physiology and Rheology of Arteries.- 2.1 Anatomical and Structural Organization.- 2.2 Material Properties of the Arterial Wall: Elastin, Collagen, and Smooth Muscle Cells.- 2.3 Viscoelastic Properties of Blood Vessels.- References.- 3 Theories and Models of Arterial Circulation.- 3.1 Simple Windkessel Model of the Arterial System.- 3.2 Oscillatory Blood Flow in Arteries.- 3.3 Linear Theories of Blood Flow in Arteries.- 3.4 Analogy of Arterial Blood Flow to Transmission Line.- 3.5 Distributed and Reduced Arterial Tree Models.- 3.6 Nonlinear Aspects and Pressure-Dependent Arterial Compliance.- References.- 4 Arterial Pulse Transmission Characteristics.- 4.1 Pressure and Flow Waveforms in Large and Small Arteries.- 4.2 Vascular Impedance to Blood Flow.- 4.3 Pulse Propagation, Wave Velocity, and Damping.- 4.4 Pulse Wave Reflections and Reflection Sites.- 4.5 Pulse Transmission at Vascular Branching.- 4.6 Pulse Transmission to Vascular Beds.- References.- 5 Hemodynamic Measurements and Clinical Monitoring.- 5.1 Invasive Blood Pressure Measurements.- 5.2 Noninvasive Blood Pressure Measurements.- 5.3 Blood Flow Measurements.- 5.4 Thermodilution Measurement of Cardiac Output.- 5.5 Vascular Ultrasound Dimension Measurement.- References.- 6 Arterial Circulation and the Heart.- 6.1 Coupling of Heart and Arterial System.- 6.2 Dynamic Heart-Arterial System Interactions and the Concept of Dynamic Arterial Compliance.- 6.3 Coronary Arterial Circulation.- 6.4 Hemodynamics and Modeling of Coronary Circulation.- 6.5 Myocardial Function and Arterial System Load.- References.- 7 New Approaches to Clinical Evaluations.- 7.1 Hypertension, Vascular Stiffness, and Arterial Compliance.- 7.2 Vascular Hemodynamics of Aging and Isolated Systolic Hypertension.- 7.3 Aortic Valve Stenosis and Arterial System Afterload on Left Ventricular Hypertrophy.- 7.4 Allometry and Its Diagnostic Applications.- References.