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Transcript
The Cardiovascul ar System Chapter 11 Introduction Cardiovascular system – distributes blood Pump (heart) Distribution areas (capillaries) Heart has 4 compartments 2 receive blood (atria) 2 pump blood out (ventricles) Vessels Veins return blood to the heart Arteries take blood away from the heart An Overview of the Circulatory System The Heart Superficial Anatomy of the Heart Atria Thin-walled Upper chambers Ventricles Thick, muscular Lower chambers Apex points down & tips slightly to the left Orientation & Superficial Anatomy Anterior View of the Heart Posterior View of the Heart The Coverings of the Heart Pericardium Visceral pericardium = epicardium Parietal pericardium Pericardial space contains pericardial fluid Pericardium Internal Anatomy of the Heart Chambers of the heart Right & left atrium Separated by the interatrial septum Right & left ventricle Separated by the interventricular septum Structure of the Heart Wall 3 layers Epicardium Myocardium is the middle layer Thickest layer Cardiac muscle Endocardium Organization of Muscle Tissue Structure of the Heart Wall The Great Vessels Superior & inferior vena cava Return blood from body to right atrium Coronary Sinus Returns blood from heart wall to right atrium Pulmonary trunk (artery) Takes blood (deoxygenated) from right ventricle to lungs Pulmonary veins Returns blood (oxygenated) from lungs to left atrium Aorta Takes blood from left ventricle to body Valves of the Heart Atrioventricular (AV) valves separate the atria from the ventricles Tricuspid valve – right Bicuspid valve (mitral) – left Semilunar valves separate the ventricles from the great vessels Pulmonary semilunar valve Aortic semilunar valve Heart sounds Valves of the Heart (Ventricular Diastole) Valves of the Heart (Ventricular Systole) Coronary Circulation Vessels that supply the myocardium itself Right coronary artery Left coronary artery Cardiac veins Coronary Circulation Cast of Coronary Vessels The Cardiac Cycle The contraction pattern of the myocardium Determined by the conduction system Systole = contraction Diastole = relaxation Both atria contract at the same time Both ventricles contract at the same time Atria alternate with ventricles The Cardiac Cycle Conduction System of the Heart The average heart rate is 72 beats/min. Depolarization stimulates contraction Depolarization begins in the sinoatrial (SA) node Pacemaker Depolarization spreads through atria Atria contract Atrioventricular (AV node) depolarizes Depolarization travels down the AV bundle Depolarization spreads up the ventricular walls via Purkinje fibers. Ventricles contract Conducting System of the Heart Conducting System of the Heart Conduction System of the Heart Conducting System of the Heart Conducting System of the Heart Conducting System of the Heart Electrocardiogram ECG = a recording of electrical events in the heart P wave = atrial depolarization QRS wave = ventricular depolarization T wave = ventricular repolarization Electrocardiogram Electrocardiogram Disorders Abnormal heart rates Bradycardia Tachycardia Fibrillation Angina pectoris Myocardial infarction Blood Vessels Introduction Blood vessels Carry blood away from the heart - arteries Transport blood to tissues - capillaries Return blood to the heart – veins Walls of Blood Vessels 3 layers Inner layer is endothelium Simple squamous epithelium Middle layer Smooth muscle and elastic fibers Outer layer Elastic and collagen fibers Walls of Blood Vessels Arteries Elastic arteries are the large arteries Muscular arteries are the smaller arteries Arterioles are very small, <0.5mm in diameter Capable of vasoconstriction and vasodilation Systemic Arterial System Major Arteries of the Trunk Arteries of the Chest and Upper Extremity Capillaries The most important of the vessels All blood-tissue exchange occurs here Tissue is entirely simple squamous epithelium Occur in capillary beds with precapillary sphincters Capillaries Capillary Bed Veins Venules are very small Contain no smooth muscle Veins contain the same 3 layers as arteries Middle layer is much thinner than in arteries Outer layer is the thickest layer Some veins contain valves Prevent blood from flowing backwards Systemic Venous System Venous System of the Trunk and Upper Limb Veins with Valves Blood Flow Blood flows because of different pressures in the system Mean pressure in aorta = 100 mmHg Pressure decreases continuously through arterial and venous system Arteries = 100 – 40 mmHg Arterioles = 40 – 25 mmHg Capillaries = 25 – 12 mmHg Venules = 12 – 8 mmHg Veins = 8 – 5 mmHg Vena cava = 2 mmHg Blood Pressure Definition – force exerted by blood on the wall of any blood vessel Clinical use – refers to pressure in the arteries Ventricles contract (systole) Arterial pressure rises Systolic pressure Ventricles relax (diastole) Arterial pressure drops Diastolic pressure Average blood pressure 120/80 (young male) 110/70 (young female) Disorders Varicose veins Hypertension Atherosclerosis Atherosclerosis
