Denise L. Smith, PhD, is the Tisch Family Distinguished Professor in the department of health and human physiological sciences and the director of the First Responder Health and Safety Laboratory at Skidmore College. She also holds an appointment as a research scientist at the University of Illinois Fire Service Institute. For nearly three decades, Smith has conducted scientific research on cardiovascular responses to exercise, with a focus on the physiological strain associated with heat and occupational stressors in firefighters. She has led several federally funded research projects investigating the intersection of cardiovascular disease and the cardiovascular strain of firefighting. Smith has conducted over 40 fatality investigations of firefighters who died in the line of duty due to cardiovascular causes.

Smith has published over 100 peer-reviewed scientific papers, coauthored Exercise Physiology for Health, Fitness and Performance, and contributed chapters to several textbooks. She 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 and the American Heart Association. She has received multiple awards, including the Dr. John Granito Award for Excellence in Fire Leadership and Management Research and NIOSH’s Alice Hamilton Award for Excellence in Occupational Safety and Health.

Bo Fernhall, PhD, is a professor of kinesiology and nutrition in the College of Applied Health Sciences at the University of Illinois at Chicago, where he founded the Integrative Physiology Laboratory and co-developed the physical therapy faculty clinic. Fernhall has nearly 40 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 Cardiovascular and Pulmonary Rehabilitation, and the American College of Sports Medicine. He was elected to the National Academy of Kinesiology in 2005, and he currently serves as president-elect of the organization. He has won several national research awards, including the G. Lawrence Rarick Research Award in 2006 for his research on the benefits of exercise in people with disabilities. Fernhall has published over 370 peer-reviewed manuscripts in scientific journals and has contributed to several books and book chapters. He serves as an associate editor for Exercise and Sport Sciences Reviews and is an editorial board member of Medicine and Science in Sports and Exercise.

Texte du rabat

Advanced Cardiovascular Exercise Physiology, Second Edition, systematically details the effects of acute and chronic exercise training on each component of the cardiovascular system: the heart, the vasculature, and the blood.

Résumé
Advanced Cardiovascular Exercise Physiology, Second Edition, systematically details the effects of acute and chronic exercise training on each component of the cardiovascular system: the heart, the vasculature, and the blood.

Contenu

Section I. Cardiovascular Physiology

Chapter 1. Essentials of the Cardiovascular System
Components of the Cardiovascular System
Cardiovascular Responses to Exercise
Summary

Chapter 2. The 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 Myocytes
Excitation–Contraction Coupling
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
Brain- and Receptor-Mediated Heart Rate Control Mechanisms
Heart Rate Variability
Summary

Chapter 5. The Electrocardiogram
The ECG Tracing
Measuring the ECG
Measuring Heart Rate
Cardiac Rhythms
Conduction Blocks
Ventricular Hypertrophy
ST-Segment Changes (Ischemia)
Myocardial Infarction
Test Considerations
Common ECG Changes in Athletes
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 Vasodilation
Reflex Control of Blood Pressure and Vasomotion
Measurement of Blood Pressure and Pulse Wave Analysis
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—Clot Dissolution
Assessing Hemostasis
Summary

Section II. Exercise Physiology

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

Chapter 10. Cardiovascular Adaptations to Aerobic Training
Cardiac Dimensions
Cardiac Function
Vascular Adaptations
Hemostatic Adaptations
Summary

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

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