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Transcript
The Cardiovascular system: 15 Heart Unit 1 Chapter 15 Location 15 • Thoracic cavity between two lungs ~2/3 to left of midline • surrounded by pericardium: • Fibrous pericardium- • Inside is serous pericardium- double layer around heart Parietal layer fused to fibrous pericardium Inner visceral layer adheres tightly to heart Filled with pericardial fluid- reduces friction during beat. Unit 1 Inelastic and anchors heart in place Figure 15.1 Heart Wall 15 Two separate networks via gap junctions in intercalated discs- atrial & ventricular Networks- contract as a unit • Endocardium- Squamous epithelium lines inside of myocardium Unit 1 • Epicardium- outer layer • Myocardium- cardiac muscle Figure 15.2a Figure 15.2b Figure 15.2c Chambers 15 • 4 chambers • 2 upper chambers= Atria Between is interatrial septum Contains fossa ovalis- remnant of foramen ovalis • 2 lower chambers = ventricles • Wall thickness depends on work load Atria thinnest Right ventricle pumps to lungs & thinner than left Unit 1 Between is interventricular septum Great Vessels Of Heart- Right 15 • Superior & inferior Vena Cavae • R. Atrium R. Ventricle • pumps through Pulmonary Trunk • R & L pulmonary arteries • lungs Unit 1 Delivers deoxygenated blood to R. atrium from body Coronary sinus drains heart muscle veins Great Vessels Of Heart-Left 15 • Pulmonary Veins from lungs • L. atrium Left ventricle • ascending aorta body • Between pulmonary trunk & aortic arch is ligamentum arteriosum • fetal ductus arteriosum remnant Unit 1 oxygenated blood Figure 15.3a Figure 15.3b Figure 15.3c Valves 15 • Designed to prevent back flow in response to pressure changes • Atrioventricular (AV) valves • Right = tricuspid valve (3 cusps) • Left = bicuspid or mitral valve • Semilunar valves near origin of aorta & pulmonary trunk • Aortic & pulmonary valves respectively Unit 1 Between atria and ventricles Figure 15.4ab Figure 15.4c Figure 15.4d Figure 15.5a Figure 15.5b Blood Supply Of Heart 15 • Blood flow through vessels in myocardium = coronary circulation • L. & Right coronary arteries • Deoxygenated blood collected by Coronary Sinus (posterior) • Empties into R. Atrium Unit 1 branch from aorta branch to carry blood throughout muscle • 1% of cardiac muscle generate action potentials= Pacemaker & Conduction system • Normally begins at sinoatrial (SA) node • Atria & atria contract • AV node -slows • AV bundle (Bundle of His) • bundle branches Purkinje fibers • apex and up- then ventricles contract 15 Unit 1 Conduction System • Depolarize spontaneously • sinoatrial node ~100times /min • also AV node ~40-60 times/min • in ventricle ~20-35 /min • Fastest one run runs the heart = pacemaker • Normally the sinoatrial node 15 Unit 1 Pacemaker Figure 15.6 Electrocardiogram 15 • Recording of currents from cardiac conduction on skin = electrocardiogram (EKG or ECG) • P wave= atrial depolarization • QRS complex= Ventricular depolarization Contraction of ventricle • T-wave = ventricular repolarization Just after ventricles relax Unit 1 Contraction begins right after peak Repolarization is masked in QRS Figure 15.7 Cardiac Cycle 15 • after T-wave ventricular diastole Ventricular pressure drops below atrial & AV valves open ventricular filling occurs • After P-wave atrial systole Finishes filling ventricle (`25%) Pressure pushes AV valves closed Pushes semilunar valves open and ejection occurs Ejection until ventricle relaxes enough for arterial pressure to close semilunar valves Unit 1 • After QRS ventricular systole • Review muscle • Heart has addition of External Ca2+ • creates a plateau • prolonged depolarized period. • Can not go into tetanus. 15 Unit 1 Action Potential Figure 15.8 • Cardiac Output (CO) = liters/min pumped • Heart Rate (HR) = beats/minute (bpm) • Stroke volume (SV) = volume/beat • CO = HR x SV 15 Unit 1 Flow Terms Controls- Stroke Volume (S.V.) 15 • Degree of stretch = Frank-Starling law • increased sympathetic activity • High back pressure in artery decreased S.V. Slows semilunar valve opening Unit 1 Increase diastolic Volume increases strength of contraction increased S.V. Increased venous return increased S.V. Controls- Heart Rate 15 • Pacemaker adjusted by nerves Cardiovascular center in Medulla • parasympathetic- ACh slows • Sympathetic - norepinephrine speeds • Sensory input for control: baroreceptors (aortic arch & carotid sinus)- B.P. Chemoreceptors- O2, CO2, pH Unit 1 Via vagus nerve Other Controls 15 • Hormones: Epinephrine & norepinephrine increase H.R. Thyroid hormones stimulate H.R. Called tachycardia Increased Na+ or K+ decrease H.R. & contraction force Increased Ca2+ increases H.R. & contraction force Unit 1 • Ions Figure 15.9 • Aerobic exercise (longer than 20 min) strengthens cardiovascular system • Well trained athlete doubles maximum C.O. • Resting C.O. about the same but resting H.R. decreased 15 Unit 1 Exercise Figure 15.10
