Section I: Cardiac Electrophysiology and the Electrocardiogram (ECG). Introduction. Ventricular Myocyte Electrophysiology. Cardiac Electrical Activity Elsewhere than in Ventricular Myocytes. Physiologic Consequences of Ionic Mechanisms. Control of Heart Rate. Electrical Properties and Cardiac Myocyte Structure. Conduction of Electrical Activity in the Heart. Electrocardiogram. Section II: Cardiovascular System. Introduction. How the Circulation Works. Cardiac Cycle, Heart Sounds and Murmurs. Ventricular Function. Peripheral Circulation. Circulatory Controls. Regional Blood Flow. Microcirculation
Cardiovascular disease remains the chief cause of mortality and morbidity in adults in many parts of the world, and diagnosis and treatment is increasingly based on cellular, intracellular, and molecular parameters as well as systems analysis. Consequently, it is vital that medical students learn the fundamental physiology of the cardiovascular system. This book, along with its interactive electronic learning modules, breathes life into the subject, with animations, videos, and game-like decision-making.
- Accessible - concise, practical text with electronic materials that bring to life the heart beats, sounds, and pulsing of blood vessels
- Flexible - study questions with click-to-review answer choices require the user to pause and self-assess as they progress through the modules
- Interactive - hotspots that can be clicked to add data, make choices, draw graphs, and reveal information
- Relevant - clinical examples ensure relevance for students in medical school and early postgraduate training
- eResources – visit www.crcpress.com/9781138096691 for digital resources that supplement and enhance the textual descriptions
Burt Hamrell is an emeritus professor in the Department of Molecular Physiology and Biophysics at the University of Vermont where he spent 30 years in research on the physiology and pathophysiology of heart muscle mechanics and in teaching cardiovascular physiology to medical and allied health students.