Simulation in Cardiovascular Critical Care Medicine: Integration of Pathophysiology, Monitoring, and Therapy
Editat de Ronald A. Bronicki, Sebastian C. Tume, Daniel Burkhoff, Daniel J. Pennyen Limba Engleză Hardback – 18 oct 2024
The book uses the Harvi cardiovascular simulator (Harvi Dynamics, Inc) in which heart chambers are modeled according to the time-varying elastance principles of Suga and Sunagawa, and Guyton’s model of the vasculature, which describes systemic and pulmonary vascular properties by a series of resistances and capacitances. The simulator generates ventricular pressure-volume loops from each of the four chambers, time-dependent tracings of pressure, flow and volumes, and the hemodynamic parameters derived from these signals. The principles of the time varying elastance model are reviewed and then applied to a spectrum of cardiovascular lesions, including acute and chronic systolic heart failure, sepsis phenotypes, pulmonary hypertension, valvular disease, and the impact of therapies such as vasoactive agents and acute and chronic mechanical circulatory support devices.
Simulation in Cardiovascular Critical Care Medicine is a valuable resource for all levels of learners in the fields of Cardiology, Critical Care Medicine, and Cardiac Critical Care Medicine.
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Specificații
ISBN-13: 9783031635564
ISBN-10: 3031635566
Pagini: 200
Ilustrații: Approx. 200 p. 50 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
ISBN-10: 3031635566
Pagini: 200
Ilustrații: Approx. 200 p. 50 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:2024
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
Cuprins
Chapter 1: Introduction on CV physiology and pathophysiology using the ventricular pressure volume relation and time varying elastance model.- Chapter 2: Review of hemodynamic monitoring & vasoactive agents.- Chatper 3: Simulation generated clinical vignette on cardiogenic shock.- Chapter 4: Simulation generated clinical vignette on mechanical circulatory support.- Chapter 5: Simulation generated clinical vignetted on cardiomyopathies.- Chapter 6: Review of ventricular response to a volume load followed by simulation generated clinical vignettes on aortic and mitral regurgitations (acute, chronic compensated and chronic decompensated states).- Chapter 7: Review of ventricular response to a pressure load followed by simulation generated clinical vignettes on systemic & pulmonary hypertension and aortic stenosis (acute, chronic compensated and decompensated states).- Chapter 8: Heart Lung interactions: underlying principles and simulation generated vignettes on diastolic and systolic heart failure.
Notă biografică
Ronald A. Bronicki, MD
Texas Children's Hospital
Baylor College of Medicine
Department of Pediatrics
Houston, TX
USA
Daniel Burkhoff, MD, PhD
Columbia University
Associate Professor of Medicine
New York, NY
USA
Sebastian Tume, MD
Texas Children's Hospital
Baylor College of Medicine
Department of Pediatrics
Houston, TX
USA
Texas Children's Hospital
Baylor College of Medicine
Department of Pediatrics
Houston, TX
USA
Daniel Burkhoff, MD, PhD
Columbia University
Associate Professor of Medicine
New York, NY
USA
Sebastian Tume, MD
Texas Children's Hospital
Baylor College of Medicine
Department of Pediatrics
Houston, TX
USA
Textul de pe ultima copertă
This book uses a validated cardiovascular simulator to illustrate cardiovascular physiology and pathophysiology, principles of hemodynamic monitoring, and the impact of therapy in patients with a wide spectrum of critical care diseases. The simulator considers the closed-loop nature of the cardiovascular system and is thus ideally suited for demonstrating the complex and dynamic nature of the cardiovascular system.
The book uses the Harvi cardiovascular simulator (Harvi Dynamics, Inc) in which heart chambers are modeled according to the time-varying elastance principles of Suga and Sunagawa, and Guyton’s model of the vasculature, which describes systemic and pulmonary vascular properties by a series of resistances and capacitances. The simulator generates ventricular pressure-volume loops from each of the four chambers, time-dependent tracings of pressure, flow and volumes, and the hemodynamic parameters derived from these signals. The principles of the time varying elastance model are reviewed and then applied to a spectrum of cardiovascular lesions, including acute and chronic systolic heart failure, sepsis phenotypes, pulmonary hypertension, valvular disease, and the impact of therapies such as vasoactive agents and acute and chronic mechanical circulatory support devices.
Simulation in Cardiovascular Critical Care Medicine is a valuable resource for all levels of learners in the fields of Cardiology, Critical Care Medicine, and Cardiac Critical Care Medicine.
The book uses the Harvi cardiovascular simulator (Harvi Dynamics, Inc) in which heart chambers are modeled according to the time-varying elastance principles of Suga and Sunagawa, and Guyton’s model of the vasculature, which describes systemic and pulmonary vascular properties by a series of resistances and capacitances. The simulator generates ventricular pressure-volume loops from each of the four chambers, time-dependent tracings of pressure, flow and volumes, and the hemodynamic parameters derived from these signals. The principles of the time varying elastance model are reviewed and then applied to a spectrum of cardiovascular lesions, including acute and chronic systolic heart failure, sepsis phenotypes, pulmonary hypertension, valvular disease, and the impact of therapies such as vasoactive agents and acute and chronic mechanical circulatory support devices.
Simulation in Cardiovascular Critical Care Medicine is a valuable resource for all levels of learners in the fields of Cardiology, Critical Care Medicine, and Cardiac Critical Care Medicine.
Caracteristici
Illustrates difficult and complex principles in critical care cardiology Offers simulation-based education for the critical care cardiologist Provides a tool for understanding dynamic cardiovascular princples