Advances in hemodynamics research /
Advances in hemodynamics research /
Keiichi Itatani, editor.
- 1 online resource.
- Cardiology research and clinical developments .
- Cardiology research and clinical developments series. .
Includes bibliographical references and index.
ADVANCES IN HEMODYNAMICS RESEARCH; ADVANCES IN HEMODYNAMICS RESEARCH; Library of Congress Cataloging-in-Publication Data; CONTENTS ; Preface; Part I: Basic Science of Hemodynamic Research; Chapter 1 Historical and Current Role of Hemodynamic Research; Abstract; 1.1. Developments in Hemodynamic Research; 1.2. Developments in Hemodynamic Research Related to Pressure Measurement; 1.2.1. Heart Muscle Work and Pressure-Volume Evaluation in One Cardiac Cycle; 1.2.2. Peripheral Vasculature and Its Characteristics in Hemodynamic Research; 1.2.3. Wave Propagation and Its Reflection 1.3. Basic Theorem Forming Blood Flow Dynamics1.4. Developments in Hemodynamic Research Related to Flow Visualization; 1.4.1. Flow Visualization Methods; 1.4.2. Computational Modeling; 1.4.3. Flow Visualization with MRI (Magnetic Resonance Imaging); 1.4.4. Flow Visualization with Echocardiography; 1.4.5. Pressure Estimation Method with Echocardiography; 1.5. Essential Indices for Hemodynamic Research; 1.5.1. Swirling Flow Indices: Vorticity, Circulation and Helicity; 1.5.2. Wall Shear Stress (WSS) and Its Related Parameters; 1.5.3. Flow Energy Loss (EL) 1.6. What Hemodynamic Research Is Aiming toward in Future1.A. Appendix; 1.A.1. Pipe Flow and Vascular Characteristics; 1.A.2. Streamline Cross-Linking Number and Helicity; 1.A.3. Definition of Flow Energy Loss; References; Chapter 2 Hemodynamic Assessment and Flow Visualization in Echocardiography; Abstract; 2.1. Hedmodynamic Assessment Using Echocardiography; 2.2. Hemodynamic Assessment: Principles of Echocardiography; 2.2.1. Doppler Echocardiography; 2.2.2. Bernoulli Equation; 2.2.3. Speckle Tracking Echocardiography; 2.3. Hemodynamic Assessment: The Assessment of LV Function 2.3.1. The Assessment of LV Systolic Function2.3.2. The Assessment of LV Systolic Function: LV Ejection Fraction; 2.3.3. The Assessment of LV Systolic Function: Global Strain; 2.3.3.1. The assessment of LV diastolic function; 2.3.4. The Assessment of LV Diastolic Function: Relaxation; 2.3.5. The Assessment of LV Diastolic Function: Stiffness; 2.3.6. The Estimation of LV Filling Pressure; 2.3.7. Ventricular-Arterial Coupling; 2.4. Flow Visualization Using Echocardiography; 2.4.1. Methodologies; 2.4.2. Color Doppler Based Methods; 2.4.3. Color Doppler Based Methods: Cross-Beam Doppler 2.4.4. Color Doppler Based Methods: Vector Flow Mapping2.4.5. Color Doppler Based Methods: Blood Flow Imaging; 2.4.6. B-Mode Based Method; 2.5. Clinical Studies on the Intra-Cardiac Flows; 2.5.1. Heart Failure; 2.5.2. Dilated Cardiomyopathy; 2.5.3. Hypertrophic Cardiomyopathy; 2.5.4. Mitral Valve Prosthesis; References; Chapter 3 Flow Visualization in Magnetic Resonance Imaging (MRI); Abstract; 3.1. Basic Considerations on Flow and Magnetic Resonsnce; 3.1.1. Basic Principle of the Magnetic Resonance (MR) Signal; 3.1.2. MR Measurements of the Flow; 3.2. MRI Tools for Flow Measurements
9781634832144 1634832140
2020677113
Hemodynamics.
MEDICAL / Physiology
SCIENCE / Life Sciences / Human Anatomy & Physiology
Hemodynamics.
Electronic books.
Electronic books.
QP105
612.1/181
Includes bibliographical references and index.
ADVANCES IN HEMODYNAMICS RESEARCH; ADVANCES IN HEMODYNAMICS RESEARCH; Library of Congress Cataloging-in-Publication Data; CONTENTS ; Preface; Part I: Basic Science of Hemodynamic Research; Chapter 1 Historical and Current Role of Hemodynamic Research; Abstract; 1.1. Developments in Hemodynamic Research; 1.2. Developments in Hemodynamic Research Related to Pressure Measurement; 1.2.1. Heart Muscle Work and Pressure-Volume Evaluation in One Cardiac Cycle; 1.2.2. Peripheral Vasculature and Its Characteristics in Hemodynamic Research; 1.2.3. Wave Propagation and Its Reflection 1.3. Basic Theorem Forming Blood Flow Dynamics1.4. Developments in Hemodynamic Research Related to Flow Visualization; 1.4.1. Flow Visualization Methods; 1.4.2. Computational Modeling; 1.4.3. Flow Visualization with MRI (Magnetic Resonance Imaging); 1.4.4. Flow Visualization with Echocardiography; 1.4.5. Pressure Estimation Method with Echocardiography; 1.5. Essential Indices for Hemodynamic Research; 1.5.1. Swirling Flow Indices: Vorticity, Circulation and Helicity; 1.5.2. Wall Shear Stress (WSS) and Its Related Parameters; 1.5.3. Flow Energy Loss (EL) 1.6. What Hemodynamic Research Is Aiming toward in Future1.A. Appendix; 1.A.1. Pipe Flow and Vascular Characteristics; 1.A.2. Streamline Cross-Linking Number and Helicity; 1.A.3. Definition of Flow Energy Loss; References; Chapter 2 Hemodynamic Assessment and Flow Visualization in Echocardiography; Abstract; 2.1. Hedmodynamic Assessment Using Echocardiography; 2.2. Hemodynamic Assessment: Principles of Echocardiography; 2.2.1. Doppler Echocardiography; 2.2.2. Bernoulli Equation; 2.2.3. Speckle Tracking Echocardiography; 2.3. Hemodynamic Assessment: The Assessment of LV Function 2.3.1. The Assessment of LV Systolic Function2.3.2. The Assessment of LV Systolic Function: LV Ejection Fraction; 2.3.3. The Assessment of LV Systolic Function: Global Strain; 2.3.3.1. The assessment of LV diastolic function; 2.3.4. The Assessment of LV Diastolic Function: Relaxation; 2.3.5. The Assessment of LV Diastolic Function: Stiffness; 2.3.6. The Estimation of LV Filling Pressure; 2.3.7. Ventricular-Arterial Coupling; 2.4. Flow Visualization Using Echocardiography; 2.4.1. Methodologies; 2.4.2. Color Doppler Based Methods; 2.4.3. Color Doppler Based Methods: Cross-Beam Doppler 2.4.4. Color Doppler Based Methods: Vector Flow Mapping2.4.5. Color Doppler Based Methods: Blood Flow Imaging; 2.4.6. B-Mode Based Method; 2.5. Clinical Studies on the Intra-Cardiac Flows; 2.5.1. Heart Failure; 2.5.2. Dilated Cardiomyopathy; 2.5.3. Hypertrophic Cardiomyopathy; 2.5.4. Mitral Valve Prosthesis; References; Chapter 3 Flow Visualization in Magnetic Resonance Imaging (MRI); Abstract; 3.1. Basic Considerations on Flow and Magnetic Resonsnce; 3.1.1. Basic Principle of the Magnetic Resonance (MR) Signal; 3.1.2. MR Measurements of the Flow; 3.2. MRI Tools for Flow Measurements
9781634832144 1634832140
2020677113
Hemodynamics.
MEDICAL / Physiology
SCIENCE / Life Sciences / Human Anatomy & Physiology
Hemodynamics.
Electronic books.
Electronic books.
QP105
612.1/181