Cardiovascular System Structure & Circulation
Heart
System Includes Heart Blood Vessels Arteries – away from Veins – toward Capillaries
Heart
Cardiovascular Functions Transportation Carries: O2, CO2, nutrients, waste, enzymes Regulation pH Temperature Water balance Protection Blood loss - clotting Immune system
Cardiovascular Functions Ensures unidirectional flow of blood Pumps blood to lungs and body Develops blood pressure for nutrient and waste exchange
Heart-Anatomical Location and Orientation
Heart Anatomical Orientation and Location
Heart Structure
Heart Structure 4 Chambers: Right Atrium Receives blood from body: Low in oxygen Superior vena cava Arms and upper body Inferior vena cava Lower extremities
Heart Structure 4 Chambers: Right Ventricle Lower right chamber Low oxygen blood Send blood to lung for oxygenation
Heart Structure 4 Chambers: Left Atrium Receives blood from: Lungs Oxygenated blood Pumps to left ventricle
Heart Structure 4 Chambers: Left Ventricle Receives blood from left atrium – high oxygen Pumps to body circulation (systemic)
Blood Flow Through the Heart
Blood Flow Through the Heart Animation https://www.youtube.com/watch?v=Rj_qD0SEGG k
Heart Structure Pericardium “Sac” around heart Made of serous membrane Facts Room to move Reduces friction Confines heart Problems Pericarditis Pericardial Effusion
Pericardium
Layers of the Heart
Layers of the Heart Epicardium Myocardium Endocardium Figure 18.3
Cardiac Muscle Cells
Cardiac Muscle Cells
Heart Structure
Heart Structure Endocardium Inner membrane - lines heart Endocarditis – endocardium inflammation
Heart Structure Myocardium Heart Muscle Surrounds chambers Thickness varies L. ventricle > R. ventricle > R. atrium > L. atrium
Heart Structure Epicardium Membrane on outside of the heart
Valves of the Heart
Heart Valves
Heart Valves Flow in one direction Prevents backflow Made of collagen connective tissue
Heart Valves 2 Atrioventricular valves – (AV) Bicuspid (2 flaps) Tricuspid (3 flaps) Bicuspid (2 flaps) AKA Mitral Valve Attachment: Papillary muscles, prevent blood reflux
Atrioventricular Valves (Open)
Atrioventricular Valves (Closed) Figure 18.9b
Heart Valves 2 Semilunar valves Composition: connective tissue flaps with crescent-shapes Pulmonary: stop reflux in right ventricle Aortic: stop reflux in left ventricle
Semilunar Valves (Open vs Closed)
Conduction System Cardiac muscle tissue has intrinsic ability to: Generate and conduct impulses Signal these cells to contract rhythmically Conducting system A series of specialized cardiac muscle cells Sinoatrial (SA) node sets the inherent rate of contraction
Conducting System
Conduction System
Conduction System
Disorders of the Heart Coronary artery disease Atherosclerosis – fatty deposits Angina pectoris – chest pain Myocardial infarction – blocked coronary artery Silent ischemia – no pain or warning
Disorders of the Heart Heart failure Progressive weakening of the heart Cannot meet the body’s demands for oxygenated blood Congestive heart failure – heart enlarges Pumping efficiency declines Cor pulmonale Enlargement and potential failure of the right ventricle
Disorders of Conduction Ventricular fibrillation Rapid, random firing of electrical impulses in the ventricles Atrial fibrillation Multiple waves of impulses randomly signal the AV node Signals ventricles to contract quickly and irregularly