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PowerPoint® Lecture Slides prepared by Janice Meeking, Mount Royal College CHAPTER 18 The Cardiovascular System: The Heart: Part A Copyright © 2010 Pearson Education, Inc. Heart Anatomy • Approximately the size of a fist • Location • In the mediastinum between second rib and fifth intercostal space • On the superior surface of diaphragm • Two-thirds to the left of the midsternal line • Anterior to the vertebral column, posterior to the sternum • Enclosed in pericardium, a double-walled sac PLAY Animation: Rotating heart Copyright © 2010 Pearson Education, Inc. Midsternal line 2nd rib Sternum Diaphragm (a) Copyright © 2010 Pearson Education, Inc. Point of maximal intensity (PMI) Figure 18.1a Superior vena cava Aorta Parietal pleura (cut) Pulmonary trunk Left lung Pericardium (cut) Diaphragm Apex of heart (c) Copyright © 2010 Pearson Education, Inc. Figure 18.1c Pericardium • Superficial fibrous pericardium • Protects, anchors, and prevents overfilling Copyright © 2010 Pearson Education, Inc. Pericardium • Deep two-layered serous pericardium • Parietal layer lines the internal surface of the fibrous pericardium • Visceral layer (epicardium) on external surface of the heart • Separated by fluid-filled pericardial cavity (decreases friction) Copyright © 2010 Pearson Education, Inc. Pulmonary trunk Pericardium Myocardium Copyright © 2010 Pearson Education, Inc. Fibrous pericardium Parietal layer of serous pericardium Pericardial cavity Epicardium (visceral layer Heart of serous wall pericardium) Myocardium Endocardium Heart chamber Figure 18.2 Layers of the Heart Wall 1. Epicardium—visceral layer of the serous pericardium Copyright © 2010 Pearson Education, Inc. Layers of the Heart Wall 2. Myocardium • Spiral bundles of cardiac muscle cells • Fibrous skeleton of the heart: crisscrossing, interlacing layer of connective tissue • Anchors cardiac muscle fibers • Supports great vessels and valves • Limits spread of action potentials to specific paths Copyright © 2010 Pearson Education, Inc. Layers of the Heart Wall 3. Endocardium is continuous with endothelial lining of blood vessels Copyright © 2010 Pearson Education, Inc. Pulmonary trunk Pericardium Myocardium Copyright © 2010 Pearson Education, Inc. Fibrous pericardium Parietal layer of serous pericardium Pericardial cavity Epicardium (visceral layer Heart of serous wall pericardium) Myocardium Endocardium Heart chamber Figure 18.2 Cardiac muscle bundles Copyright © 2010 Pearson Education, Inc. Figure 18.3 Chambers • Four chambers • Two atria • Separated internally by the interatrial septum • Coronary sulcus (atrioventricular groove) encircles the junction of the atria and ventricles • Auricles increase atrial volume Copyright © 2010 Pearson Education, Inc. Chambers • Two ventricles • Separated by the interventricular septum • Anterior and posterior interventricular sulci mark the position of the septum externally Copyright © 2010 Pearson Education, Inc. Brachiocephalic trunk Superior vena cava Right pulmonary artery Ascending aorta Pulmonary trunk Right pulmonary veins Right atrium Right coronary artery (in coronary sulcus) Anterior cardiac vein Right ventricle Right marginal artery Small cardiac vein Inferior vena cava (b) Anterior view Copyright © 2010 Pearson Education, Inc. Left common carotid artery Left subclavian artery Aortic arch Ligamentum arteriosum Left pulmonary artery Left pulmonary veins Auricle of left atrium Circumflex artery Left coronary artery (in coronary sulcus) Left ventricle Great cardiac vein Anterior interventricular artery (in anterior interventricular sulcus) Apex Figure 18.4b Atria: The Receiving Chambers • Walls are ridged by pectinate muscles • Vessels entering right atrium • Superior vena cava • Inferior vena cava • Coronary sinus • Vessels entering left atrium • Right and left pulmonary veins Copyright © 2010 Pearson Education, Inc. Ventricles: The Discharging Chambers • Walls are ridged by trabeculae carneae • Papillary muscles project into the ventricular cavities • Vessel leaving the right ventricle • Pulmonary trunk • Vessel leaving the left ventricle • Aorta Copyright © 2010 Pearson Education, Inc. Aorta Superior vena cava Right pulmonary artery Pulmonary trunk Right atrium Right pulmonary veins Fossa ovalis Pectinate muscles Tricuspid valve Right ventricle Chordae tendineae Trabeculae carneae Inferior vena cava Left pulmonary artery Left atrium Left pulmonary veins Mitral (bicuspid) valve Aortic valve Pulmonary valve Left ventricle Papillary muscle Interventricular septum Epicardium Myocardium Endocardium (e) Frontal section Copyright © 2010 Pearson Education, Inc. Figure 18.4e Pathway of Blood Through the Heart • The heart is two side-by-side pumps • Right side is the pump for the pulmonary circuit • Vessels that carry blood to and from the lungs • Left side is the pump for the systemic circuit • Vessels that carry the blood to and from all body tissues Copyright © 2010 Pearson Education, Inc. Pulmonary Circuit Pulmonary arteries Venae cavae Capillary beds of lungs where gas exchange occurs Pulmonary veins Aorta and branches Left atrium Left ventricle Right atrium Right ventricle Oxygen-rich, CO2-poor blood Oxygen-poor, CO2-rich blood Copyright © 2010 Pearson Education, Inc. Heart Systemic Circuit Capillary beds of all body tissues where gas exchange occurs Figure 18.5 Pathway of Blood Through the Heart • Right atrium tricuspid valve right ventricle • Right ventricle pulmonary semilunar valve pulmonary trunk pulmonary arteries lungs PLAY Animation: Rotating heart (sectioned) Copyright © 2010 Pearson Education, Inc. Pathway of Blood Through the Heart • Lungs pulmonary veins left atrium • Left atrium bicuspid valve left ventricle • Left ventricle aortic semilunar valve aorta • Aorta systemic circulation PLAY Animation: Rotating heart (sectioned) Copyright © 2010 Pearson Education, Inc. Pathway of Blood Through the Heart • Equal volumes of blood are pumped to the pulmonary and systemic circuits • Pulmonary circuit is a short, low-pressure circulation • Systemic circuit blood encounters much resistance in the long pathways • Anatomy of the ventricles reflects these differences Copyright © 2010 Pearson Education, Inc. Left ventricle Right ventricle Interventricular septum Copyright © 2010 Pearson Education, Inc. Figure 18.6 Coronary Circulation • The functional blood supply to the heart muscle itself • Arterial supply varies considerably and contains many anastomoses (junctions) among branches • Collateral routes provide additional routes for blood delivery Copyright © 2010 Pearson Education, Inc. Coronary Circulation • Arteries • Right and left coronary (in atrioventricular groove), marginal, circumflex, and anterior interventricular arteries • Veins • Small cardiac, anterior cardiac, and great cardiac veins Copyright © 2010 Pearson Education, Inc. Superior vena cava Anastomosis (junction of vessels) Right atrium Aorta Pulmonary trunk Left atrium Left coronary artery Circumflex artery Right coronary Left artery ventricle Right ventricle Anterior Right interventricular marginal Posterior artery artery interventricular artery (a) The major coronary arteries Copyright © 2010 Pearson Education, Inc. Figure 18.7a Superior vena cava Anterior cardiac veins Great cardiac vein Coronary sinus Small cardiac vein Middle cardiac vein (b) The major cardiac veins Copyright © 2010 Pearson Education, Inc. Figure 18.7b Aorta Left pulmonary artery Superior vena cava Left pulmonary veins Auricle of left atrium Left atrium Great cardiac vein Right pulmonary veins Posterior vein of left ventricle Left ventricle Apex Copyright © 2010 Pearson Education, Inc. Right pulmonary artery Right atrium Inferior vena cava Coronary sinus Right coronary artery (in coronary sulcus) Posterior interventricular artery (in posterior interventricular sulcus) Middle cardiac vein Right ventricle (d) Posterior surface view Figure 18.4d Homeostatic Imbalances • Angina pectoris • Thoracic pain caused by a fleeting deficiency in blood delivery to the myocardium • Cells are weakened • Myocardial infarction (heart attack) • Prolonged coronary blockage • Areas of cell death are repaired with noncontractile scar tissue Copyright © 2010 Pearson Education, Inc. Heart Valves • Ensure unidirectional blood flow through the heart • Atrioventricular (AV) valves • Prevent backflow into the atria when ventricles contract • Tricuspid valve (right) • Mitral valve (left) • Chordae tendineae anchor AV valve cusps to papillary muscles Copyright © 2010 Pearson Education, Inc. Heart Valves • Semilunar (SL) valves • Prevent backflow into the ventricles when ventricles relax • Aortic semilunar valve • Pulmonary semilunar valve Copyright © 2010 Pearson Education, Inc. Myocardium Pulmonary valve Aortic valve Tricuspid Area of cutaway (right atrioventricular) Mitral valve valve Tricuspid valve Mitral (left atrioventricular) valve Aortic valve Myocardium Tricuspid (right atrioventricular) valve Mitral (left atrioventricular) valve Aortic valve Pulmonary valve Fibrous skeleton (a) Copyright © 2010 Pearson Education, Inc. Pulmonary valve Aortic valve Area of cutaway (b) Pulmonary valve Mitral valve Tricuspid valve Anterior Figure 18.8a Myocardium Tricuspid (right atrioventricular) valve Mitral (left atrioventricular) valve Aortic valve Pulmonary valve Pulmonary valve Aortic valve Area of cutaway (b) Mitral valve Tricuspid valve Copyright © 2010 Pearson Education, Inc. Figure 18.8b Pulmonary valve Aortic valve Area of cutaway Mitral valve Tricuspid valve Chordae tendineae attached to tricuspid valve flap (c) Copyright © 2010 Pearson Education, Inc. Papillary muscle Figure 18.8c Opening of inferior vena cava Tricuspid valve Mitral valve Chordae tendineae Myocardium of right ventricle Myocardium of left ventricle Papillary muscles (d) Copyright © 2010 Pearson Education, Inc. Interventricular septum Pulmonary valve Aortic valve Area of cutaway Mitral valve Tricuspid valve Figure 18.8d 1 Blood returning to the Direction of blood flow heart fills atria, putting pressure against atrioventricular valves; atrioventricular valves are forced open. Atrium Cusp of atrioventricular valve (open) 2 As ventricles fill, atrioventricular valve flaps hang limply into ventricles. Chordae tendineae 3 Atria contract, forcing additional blood into ventricles. Ventricle Papillary muscle (a) AV valves open; atrial pressure greater than ventricular pressure Atrium 1 Ventricles contract, forcing blood against atrioventricular valve cusps. 2 Atrioventricular valves close. 3 Papillary muscles contract and chordae tendineae tighten, preventing valve flaps from everting into atria. Cusps of atrioventricular valve (closed) Blood in ventricle (b) AV valves closed; atrial pressure less than ventricular pressure Copyright © 2010 Pearson Education, Inc. Figure 18.9 Aorta Pulmonary trunk As ventricles contract and intraventricular pressure rises, blood is pushed up against semilunar valves, forcing them open. (a) Semilunar valves open As ventricles relax and intraventricular pressure falls, blood flows back from arteries, filling the cusps of semilunar valves and forcing them to close. (b) Semilunar valves closed Copyright © 2010 Pearson Education, Inc. Figure 18.10 Microscopic Anatomy of Cardiac Muscle • Cardiac muscle cells are striated, short, fat, branched, and interconnected • Connective tissue matrix (endomysium) connects to the fibrous skeleton • T tubules are wide but less numerous; SR is simpler than in skeletal muscle • Numerous large mitochondria (25–35% of cell volume) Copyright © 2010 Pearson Education, Inc. Nucleus Intercalated discs Gap junctions Cardiac muscle cell Desmosomes (a) Copyright © 2010 Pearson Education, Inc. Figure 18.11a Microscopic Anatomy of Cardiac Muscle • Intercalated discs: junctions between cells anchor cardiac cells • Desmosomes prevent cells from separating during contraction • Gap junctions allow ions to pass; electrically couple adjacent cells • Heart muscle behaves as a functional syncytium Copyright © 2010 Pearson Education, Inc. Cardiac muscle cell Mitochondrion Intercalated disc Nucleus T tubule Mitochondrion Sarcoplasmic reticulum Z disc Nucleus Sarcolemma (b) Copyright © 2010 Pearson Education, Inc. I band A band I band Figure 18.11b