This new edition is written in the same quick reference style as its predecessor to help clinical and basic researchers, as well as graduate students, understand hemodynamics. Hemodynamics makes it possible to characterize, in a quantitative way and often with noninvasive techniques, the function of the heart and the arterial system, individually and in combination. Snapshots of Hemodynamics provides a thorough grounding in the discipline that will help any medical professional and researcher in the field. The authors have designed each chapter such that it gives a succinct overview of…mehr
This new edition is written in the same quick reference style as its predecessor to help clinical and basic researchers, as well as graduate students, understand hemodynamics. Hemodynamics makes it possible to characterize, in a quantitative way and often with noninvasive techniques, the function of the heart and the arterial system, individually and in combination.
Snapshots of Hemodynamics provides a thorough grounding in the discipline that will help any medical professional and researcher in the field. The authors have designed each chapter such that it gives a succinct overview of individual topics in a concise and understandable format. Each chapter of this new edition has been extensively updated while new chapters have been included on pulmonary hemodynamics and wave intensity analysis. The new edition presents the newest current information on hemodynamics in this ever-changing field.
Nicolaas Westerhof is a Professor Emeritus of Physiology based at VU University Medical Center, Amsterdam where his fields of interest include cardiovascular hemodynamics. He received his Ph.D. from the University of Pennsylvania, Philadelphia, PA. He was director of the Institute for Cardiovascular Research at VUMC (now Amsterdam Cardiovascular Sciences). Nico Westerhof is a knight in the Order of the Lion of the Netherlands. He received an Honorary Doctorate from the Ecole Polytechnique Fédérale de Lausanne, Switzerland; the 'Oeuvre-prize' of the Netherlands Society of Physiology and the 'Lifetime Achievement Award' of ARTERY Society. Nikos Stergiopulos is Director of the Laboratory of Hemodynamics and Cardiovascular Technology (LHTC), part of the Ecole Polytechnique Federale de Lausanne in Switzerland. His fields of interest include arterial wall mechanics, vascular remodeling, atherogenesis and restenosis, arterial wave propagation, heart-arterial system interaction, cardiac mechanics, angioplasty & stenting and implantable devices. Professor Noble is Honorary Professor of Cardiovascular Medicine, Aberdeen University. He is a fellow of the Royal College of Medicine of London, the European Society of Cardiology, the Royal Society of Medicine and the Association of Physicians. He has also held the prestigious visiting professorships of Boerhaave Professor of Medicine, at the University of Leiden. And Spinola Professor of Medicine, at the University of Amsterdam. His last position in the University of London was that of Professor of Cardiovascular Medicine, National Heart and Lung Institute, Imperial College School of Medicine, London. Berend E. Westerhof is interested in the quantitative description of the cardiovascular system including the hemodynamics of the systemic- as well as the pulmonary circulation. His further interests include hemodynamic monitoring, signal analysis and the use of mathematical modeling. He received his M.S degree of Delft University and Ph.D. from the University of Amsterdam. He worked several years in industry and is presently back in academia. Berend E. Westerhof is interested in the quantitative description of the cardiovascular system including the hemodynamics of the systemic- as well as the pulmonary circulation. His further interests include hemodynamic monitoring, signal analysis and the use of mathematical modeling. He received his M.Sc. degree of Delft University of Technology and Ph.D. from the University of Amsterdam. He worked several years in industry and is presently back in academia.
Inhaltsangabe
Viscosity.- Law of Poiseuille.- Bernoulli's Equation.- Turbulence.- Arterial Stenosis.- Resistance.- Inertance.- Oscillatory Flow Theory.- Law of Laplace.- Elasticity.- Compliance.- Wave Travel and Reflection.- Cardiac Muscle Mechanics.- The Pressure-Volume Relation.- The Pump Function Graph.- Cardiac Work, Energy and Power.- Cardiac Oxygen Consumption and Hemodynamics.- Cardiac Power and Ventriculo-Arterial Coupling.- Coronary Hemodynamics.- Assessing Ventricular Function.- Wave Travel and Pulse Wave Velocity.- Wave Separation and Waveform Analysis.- Wave Intensity Analysis.- Arterial Input Impedance.- The Arterial Windkessel.- Distributed Models and Tube Models.- Transfer of Pressure.- Pulmonary Hemodynamics.- Mechanotransduction and Vascular Remodeling.- Blood Flow and Arterial Disease.- Determinants of Pressure and Flow.- Comparative Physiology.- Appendices.
Viscosity.- Law of Poiseuille.- Bernoulli's Equation.- Turbulence.- Arterial Stenosis.- Resistance.- Inertance.- Oscillatory Flow Theory.- Law of Laplace.- Elasticity.- Compliance.- Wave Travel and Reflection.- Cardiac Muscle Mechanics.- The Pressure-Volume Relation.- The Pump Function Graph.- Cardiac Work, Energy and Power.- Cardiac Oxygen Consumption and Hemodynamics.- Cardiac Power and Ventriculo-Arterial Coupling.- Coronary Hemodynamics.- Assessing Ventricular Function.- Wave Travel and Pulse Wave Velocity.- Wave Separation and Waveform Analysis.- Wave Intensity Analysis.- Arterial Input Impedance.- The Arterial Windkessel.- Distributed Models and Tube Models.- Transfer of Pressure.- Pulmonary Hemodynamics.- Mechanotransduction and Vascular Remodeling.- Blood Flow and Arterial Disease.- Determinants of Pressure and Flow.- Comparative Physiology.- Appendices.
Viscosity.- Law of Poiseuille.- Bernoulli's Equation.- Turbulence.- Arterial Stenosis.- Resistance.- Inertance.- Oscillatory Flow Theory.- Law of Laplace.- Elasticity.- Compliance.- Wave Travel and Reflection.- Cardiac Muscle Mechanics.- The Pressure-Volume Relation.- The Pump Function Graph.- Cardiac Work, Energy and Power.- Cardiac Oxygen Consumption and Hemodynamics.- Cardiac Power and Ventriculo-Arterial Coupling.- Coronary Hemodynamics.- Assessing Ventricular Function.- Wave Travel and Pulse Wave Velocity.- Wave Separation and Waveform Analysis.- Wave Intensity Analysis.- Arterial Input Impedance.- The Arterial Windkessel.- Distributed Models and Tube Models.- Transfer of Pressure.- Pulmonary Hemodynamics.- Mechanotransduction and Vascular Remodeling.- Blood Flow and Arterial Disease.- Determinants of Pressure and Flow.- Comparative Physiology.- Appendices.
Viscosity.- Law of Poiseuille.- Bernoulli's Equation.- Turbulence.- Arterial Stenosis.- Resistance.- Inertance.- Oscillatory Flow Theory.- Law of Laplace.- Elasticity.- Compliance.- Wave Travel and Reflection.- Cardiac Muscle Mechanics.- The Pressure-Volume Relation.- The Pump Function Graph.- Cardiac Work, Energy and Power.- Cardiac Oxygen Consumption and Hemodynamics.- Cardiac Power and Ventriculo-Arterial Coupling.- Coronary Hemodynamics.- Assessing Ventricular Function.- Wave Travel and Pulse Wave Velocity.- Wave Separation and Waveform Analysis.- Wave Intensity Analysis.- Arterial Input Impedance.- The Arterial Windkessel.- Distributed Models and Tube Models.- Transfer of Pressure.- Pulmonary Hemodynamics.- Mechanotransduction and Vascular Remodeling.- Blood Flow and Arterial Disease.- Determinants of Pressure and Flow.- Comparative Physiology.- Appendices.
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