Cardiovascular physiology is an example of how the heart and blood vessels work together to circulate blood throughout the body, delivering oxygen and nutrients to tissues while removing waste products. It involves the study of heart function, blood pressure regulation, and the relationship between the heart, blood vessels, and blood flow.
y
Robert F. Furchgott won the Nobel Prize in Physiology or Medicine in 1998 for his discovery of the role of nitric oxide as a signaling molecule in the cardiovascular system. His research paved the way for understanding how nitric oxide regulates blood pressure and vascular tone, leading to advancements in the treatment of cardiovascular diseases.
The term exercise physiology refers to the study of how the body responds and adapts to physical activity and exercise. It encompasses understanding how various physiological systems, such as cardiovascular, respiratory, and muscular systems, function during exercise, as well as how exercise impacts overall health and performance.
Cell physiology.
A career that studies the function of the human body during exercise is exercise physiology. Exercise physiologists analyze how the body responds and adapts to physical activity and develop exercise programs to improve health and athletic performance. They study factors such as cardiovascular function, metabolism, and muscle performance during exercise.
Carl R. Honig has written: 'Modern cardiovascular physiology' -- subject(s): Cardiovascular system, Physiology
Richard E. Klabunde has written: 'Cardiovascular physiology concepts' -- subject(s): Physiopathology, Physiology, Cardiovascular Physiological Phenomena, Cardiovascular system, Heart Diseases
Lee Waite has written: 'Biofluid mechanics in cardiovascular systems' -- subject(s): Biomedical engineering, Body fluid flow, Body fluids, Cardiovascular Physiology, Cardiovascular system, Fluid mechanics, Hemodynamics, Mechanical properties, Physiology, Prosthesis Implantation, Respiratory Physiology
K. B. Chandran has written: 'Biofluid mechanics' -- subject(s): Heart Valves, Blood Circulation, Physiology, Cardiovascular Physiological Phenomena 'Cardiovascular biomechanics' -- subject(s): Biomechanics, Blood, Cardiovascular Models, Cardiovascular system, Circulation, Physiology, Rheology
y
Robert C. Little has written: 'Physiology of the heart and circulation' -- subject(s): Blood Circulation, Cardiovascular system, Heart, Heart-physiology, Physiology
Marc Thiriet has written: 'Biology and mechanics of blood flows' -- subject(s): Blood Circulation, Blood flow, Cardiovascular Models, Cardiovascular Physiology, Hemodynamics, Models, Cardiovascular, Physiology 'Cell and tissue organization in the circulatory and ventilatory systems' -- subject(s): Respiratory System, Cytology, Cell Physiological Processes, Cellular Structures, Cardiopulmonary system, Cardiovascular System
What are the example s of cardiovascular activity
Nick Sperelakis has written: 'Electrogenesis of biopotentials in the cardiovascular system' -- subject(s): Cardiovascular system, Electrophysiology, Innervation, Ion pumps, Neural conduction, Physiology
Will Beachey has written: 'Respiratory care anatomy and physiology: foundations for clinical practice' -- subject(s): Physiology, Respiratory organs, Respiration, Respiratory therapy, Kidneys, Cardiovascular system 'Workbook to accompany Respiratory Care Anatomy and Physiology'
G. R. Kelman has written: 'Applied cardiovascular physiology' -- subject(s): Cardiovascular system, Physiology 'Computer produced physiological tables, for calculations involving the relationships between blood oxygen tension and content' -- subject(s): Blood, Oxygen in the body, Tables
Walter Ernest Glover has written: 'Studies in cardiovascular physiology and pharmacology, 1957-1982'