You have reached the Canadian website for Human Kinetics. Only orders shipping to a Canadian address can be completed on this website.


If you wish to continue click here, or contact the HK Canada office directly at 1-800-465-7301. If you wish to select the HK website for your region/location outside of Canada, click here

Advanced Cardiovascular Exercise Physiology

Advanced Cardiovascular Exercise Physiology

Author:
$125.95 CAD

Available As



    Book

    Written for students and professionals working within exercise science and related health professions, Advanced Cardiovascular Exercise Physiology systematically details the effect of acute and chronic exercise training on each component of the cardiovascular system: the heart, the vasculature, and the blood (including blood clotting factors). Readers will gain a comprehensive understanding of the cardiovascular system and learn how to apply this knowledge to their work with athletes, other active individuals, and patients who have cardiovascular risk factors.

    Advanced Cardiovascular Exercise Physiology highlights the complex interaction of the components of the cardiovascular system both at rest and during exercise. Using the latest scientific and medical research, this text presents engaging discussion of cardiovascular responses and adaptions to both acute and chronic aerobic and resistance exercise training. In addition, specific attention is paid to the beneficial effects of exercise on the components of the cardiovascular system and the mechanisms through which regular exercise provides cardioprotection.

    Each chapter contains a summary to highlight key content, important terms bolded within the text for quick reference, and a key terms section at the end of each chapter defining all the bolded terms. In addition, sidebars within each chapter describe real-world examples and applications. Richly illustrated, Advanced Cardiovascular Exercise Physiology uses extensive figures and graphics to elucidate physiological mechanisms and to depict exercise responses and training adaptations.

    This text is divided into two sections, beginning with a concise explanation of the structure and function of each component of the cardiovascular system. In the second section, readers encounter detailed discussion of the acute and chronic effects of aerobic and resistance exercise on cardiac function, vascular function, and hemostatic variables.

    Advanced Cardiovascular Exercise Physiology provides a framework for understanding how the components of the cardiovascular system cooperate to support exercise and how those components adapt to and benefit from a systematic program of exercise training. By presenting current research that elucidates the specific effects and benefits of exercise on the cardiovascular system, Advanced Cardiovascular Exercise Physiology also offers readers possible future directions for research.

    Human Kinetics’ Advanced Exercise Physiology series offers books for advanced undergraduate and graduate students as well as professionals in exercise science and kinesiology. These books highlight the complex interaction of the various systems both at rest and during exercise. Each text in this series offers a concise explanation of the system and details how each is affected by acute exercise and chronic exercise training. Advanced Cardiovascular Exercise Physiology is the second volume in the series.

    Audience

    Text for graduate or advanced undergraduate exercise physiology courses studying the effects of exercise on the cardiovascular system. Reference for researchers, exercise and sports medicine specialists, health care professionals, and clinicians.

    Table of Contents

    Section I: Cardiovascular Physiology

    Chapter 1: Essentials of the Cardiovascular System
    Components of the Cardiovascular System
    Cardiovascular Response to Exercise
    Summary

    Chapter 2: Heart as a Pump
    Gross Anatomy of the Heart
    Cardiac Cycle
    The Ventricular Pressure-Volume Loop
    Cardiac Output
    Distribution of Cardiac Output
    Coronary Blood Supply
    Measuring Cardiac Function
    Summary

    Chapter 3: Cardiac Myocytes
    Microscopic Anatomy of Cardiac Myocyte
    Excitation Contraction Coupling (ECC)
    Mechanisms of Contraction
    Metabolic Requirements
    Summary

    Chapter 4: Electrical Activity of the Heart
    Ion Basis of Electrical Activity
    Resting Membrane Potential
    Action Potential
    Conduction System of the Heart
    Autorhythmicity of Conduction Cells
    Pacemakers of the Heart
    Control of Heart Rate
    Other Heart Rate Control Mechanisms
    Heart Rate Variability
    Summary

    Chapter 5: The Electrocardiogram
    The ECG Tracing
    Measuring the ECG
    Measuring heart rate
    Cardiac rhythms
    ST-Segment Changes (Ischemia)
    Summary

    Chapter 6: Hemodynamics and Peripheral Circulation
    The Pressure Differential
    Flow Velocity
    Poiseuille’s Law
    Blood Flow
    Arterial Blood Pressure
    Pulse Waves and Wave Reflections
    Blood Pressure Measurement
    Control of Vasoconstriction and Vasodilatation
    Reflex Control of Blood Pressure and Vasomotion
    Summary

    Chapter 7: Vascular Structure and Function
    Structure of Blood Vessels
    Vascular Network
    Endothelium
    Endothelium Regulation of Vascular Tone
    Vascular Smooth Muscle
    Measuring Endothelial and Vascular Function
    Summary

    Chapter 8: Hemostasis: Coagulation and Fibrinolysis
    Vascular Injury
    Platelets
    Coagulation
    Fibrinolysis
    Assessing Hemostasis
    Summary

    Section II: Exercise Physiology

    Chapter 9: Cardiovascular Responses to Acute Aerobic Exercise
    Cardiac Responses to Acute Aerobic Exercise
    Vascular Response to Acute Aerobic Exercise
    Hemostatic Responses to Acute Aerobic Exercise
    Summary

    Chapter 10: Cardiovascular Adaptations to Aerobic Training
    Cardiac Adaptations to Aerobic Training
    Vascular Adaptations to Aerobic Training
    Hemostatic Adaptations to Aerobic Training
    Summary

    Chapter 11: Cardiovascular Responses to Acute Resistance Exercise
    Cardiac Responses to Acute Resistance Exercise
    Vascular Response to Acute Resistance Exercise
    Hemostatic Responses to Acute Resistance Exercise
    Summary

    Chapter 12: Cardiovascular Adaptations to Resistance Training
    Cardiac Adaptations to Resistance Training
    Vascular Function
    Hemostatic Adaptations With Resistance Training
    Summary

    About the Author

    Denise L. Smith, PhD, is a professor in the department of health and exercise sciences and the class of 1961 term professor at Skidmore College. She also holds an appointment as a research scientist at the University of Illinois Fire Service Institute. She received her PhD from the University of Illinois in exercise physiology in 1990. For nearly two decades, Smith has conducted scientific research on cardiovascular responses to exercise. Her research is focused on the physiological strain associated with heat stress, with a specific emphasis on cardiovascular and thrombotic responses to firefighting. She has led several federally funded research projects dealing with the cardiovascular strain of firefighting.

    Smith has published studies on heat stress, cardiovascular function, and the physiological aspects of firefighting in numerous peer-reviewed scientific journals, including the American Journal of Cardiology, Medicine and Science in Sports and Exercise, Ergonomics, Journal of Thermal Biology, and Aviation, Space and Environmental Medicine. Smith has collaborated extensively with fire service organizations, has served in leadership roles in the American College of Sports Medicine, and is a member of the American Physiological Society.

    Bo Fernhall, PhD, is a professor in the department of kinesiology and community health at the University of Illinois at Urbana-Champaign. He received his PhD in exercise physiology from Arizona State University in 1984. Fernhall has nearly 30 years of experience in cardiovascular research, with a current focus on how exercise and diet affect heart, arterial, and autonomic function. He also directed cardiovascular rehabilitation programs for over 20 years, combining research and clinical experience.

    Fernhall is a fellow of the American Heart Association, the American Association of Cardiopulmonary Rehabilitation, and the American College of Sports Medicine. He was elected to the American Academy of Kinesiology and Physical Education in 2005. He has won several national research awards, most recently the G. Lawrence Rarick National Research Award in 2006 for his research on the benefits of exercise in people with disabilities. Fernhall has published over 160 peer-reviewed manuscripts in scientific journals, including the American Journal of Cardiology, Amercan Journal of Hypertension, American Journal of Physiology, Atherosclerosis, European Heart Journal, and Medicine and Science in Sports and Exercise.

    Reviews

    “[This book] is well written and supported with up-to-date, peer-reviewed literature... It is a quick read due to its clear and concise style and should be kept as both a hands-on resource guide and a primary textbook for the classroom.”

    — Doody’s Book Review (5-star review)