Pulmonary circulation – the right side of the heart receives blood from the body and pumps it to the lungs for oxygenation Systemic circulation – left side of the heart pumps blood through the body Generates blood pressure Ensures blood flow is one way only Regulates blood supply
Size of a closed fist, approximately 250 – 300g Located in the mediastinum Apex – rounded, blunt point of the heart Base - the larger flat part
Double layered sac that encloses the heart Outer layer is the fibrous pericardium ◦ Prevents over distension of the heart ◦ Anchors the heart in place Inner layer is the serous pericardium ◦ Parietal pericardium – lines the fibrous pericardium ◦ Visceral pericardium – lines the heart surface Pericardial cavity – the space between the visceral and parietal pericardium is filled with a thin layer of serous fluid: pericardial fluid
Three Layers of Tissue 1. Epicardium (also the visceral pericardium) 2. Myocardium – thick middle layer ◦ Responsible for the heart’s ability to contract ◦ Composed of cardiac cells 3. Endocardium – inner surface of the heart chambers ◦ Simple squamous epithelium
Four chambers: two atria, two ventricles Veins carry blood to the heart while arteries carry blood away Superior vena cava and inferior vena cava carry blood from the body to the right atrium Pulmonary veins carry blood from lungs to the heart Two major arteries: aorta and pulmonary trunk both exit the heart Right and left coronary arteries feed the heart muscle itself
Right atrium gets blood from body Left atrium gets blood from lungs Atria are separated by the interatrial septum Atria open into the ventricles through atrioventricular valves ◦ Right ventricle opens into the pulmonary trunk ◦ Left ventricle opens into the aorta
Atrioventricular (AV) Valves: ◦ Between right atrium and ventricle has three cusps = tricuspid valve ◦ Between left atrium and ventricle has two cusps = bicuspid (mitral) valve ◦ AV valves have cords attached to papillary muscles that prevent backflow of blood Semilunar valves – crescent shaped ◦ Aortic semilunar valves ◦ Pulmonary semilunar valve
Arteries – push oxygenated blood away from the heart to the body Veins – bring deoxygenated blood back to the heart Superior and Inferior Vena Cava – bring deoxygenated blood from the body Pulmonary Artery – the only artery that carries deoxygenated blood, sends blood from heart to lungs Pulmonary Vein – the only vein that carries oxygenated blood, it brings blood back to heart from lungs Aorta – major artery that sends oxygenated blood to body
Deox blood from the body from the Superior and Inferior Vena Cava dumps into the right atrium Passes through tricuspid valve into right ventricle Passes through Pulmonary semilunar valve to the pulmonary trunk to the pulmonary arteries Deox blood passes by lungs to become oxygenated Oxy blood passes through pulmonary veins to left atrium Passes through bicuspid valve to left ventricle Passes through Aortic semilunar valve to aorta Passes through to coronary arteries and to the rest of the body
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System consists of two nodes and a conducting bundle ◦ Nodes are located within the walls of the right atrium ◦ Sinoatrial (SA) node is medial to the superior vena cava ◦ Atrioventricular (AV) node is medial to the right AV valve ◦ Atrioventricular (AV) bundle is located next to the AV node Purkinje fibers: spreads heart beat signal through the muscle fibers
SA Node is the “pacemaker” of the heart ◦ Starts the signal pathway Signal passes to the AV node From AV node to AV bundle From AV bundle to right and left bundle branches From bundle branches to Purkinje fibers
Systole – contraction, no blood can enter Diastole – relaxation, blood fills 1. Atrial systole – ventricles fill with blood, AV valves open, SL valves close 2. Ventricular systole – atria fill with blood, AV valves close, SL valves open to move blood into arteries Alternating patterns of systole and diastole create the lub dub heart sounds
Systolic – the top, higher number ◦ Measures the pressure in the arteries when the heart contracts Diastolic – the bottom, lower number ◦ Measures the pressure in the arteries when the heart rests Blood Pressure Category Systolic mm Hg (upper #) Diastolic mm Hg (lower #) Normal less than 120 and less than 80 Prehypertension120 – 139or80 – 89 High Blood Pressure (Hypertension) Stage – 159or90 – 99 High Blood Pressure (Hypertension) Stage or higher or 100 or higher Hypertensive Crisis Hypertensive Crisis (Emergency care needed) Higher than 180 or Higher than 110
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Myocardial infarction: blood stops flowing to a part of the heart This can lead to a major injury in the heart muscle itself Symptoms: D1O4 D1O4
Congestive Heart Failure is when the heart’s pumping power is weakened ◦ Blood moves through the body slower (failure) ◦ The heart has to work harder so blood pressure increases ◦ Fluids build up in tissues causing swelling and “congestion” zYxU zYxU
Essentially, this disease is caused by abnormalities in the heart’s anatomy caused at birth XLl4c XLl4c yBU yBU
Typically caused by bad valves, a murmur is when the blood leaks backward into the atria lOE lOE