1 / 32

The Heart

The Heart. Anatomy & Physiology Chapter 12. The Heart: Some Basics. Functions: Pump blood through the circulation Needed to transport oxygen, nutrients, wastes Location In a cone-shaped area in the central thorax between the lungs The mediastinum. Pericardial Membranes.

faustus-marlas
Télécharger la présentation

The Heart

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Heart Anatomy & Physiology Chapter 12

  2. The Heart: Some Basics • Functions: • Pump blood through the circulation • Needed to transport oxygen, nutrients, wastes • Location • In a cone-shaped area in the central thorax between the lungs • The mediastinum

  3. Pericardial Membranes • Three Layers of Pericardium • Fibrous • Outermost, loose strong fibrous sac • Serous, extends over diaphragm & great vessels • Parietal • Lines the fibrous pericardium • Visceral • Lines the surface of the heart (epicardium) • Serous fluid in between the parietal & visceral layer

  4. Cardiac Anatomy:Chambers, Vessels, & Valves • Myocardium • Cardiac muscle in the walls of the heart • Endocardium • Simple squamous epithelium • Lines the 4 chambers, covers the valve surfaces, extends into the vessels • Smooth (prevents thrombus formation)

  5. Chambers of the Heart • Two atria (atrium) (right & left) • Thin-walled upper chambers • Two ventricles (right & left) • Thick-walled lower chambers • Interatrial septum • Separates the 2 atria • Interventricular septum • Separates the 2 ventricles

  6. Right Atrium • Receives venous blood from the body • Superior & inferior vena cava empty into the right atrium (RA) • Blood leaves the RA through the tricuspid valve • Has 3 flaps (cusps) • Prevents backflow from the RV during contraction

  7. Right Ventricle • Receives blood through tricuspid valve from the RA • The chordae tendinae & papillary muscles attach to the cusps of the tricuspid valve • Prevents valve inversion • Right ventricle contracts, pumping blood through the pulmonary (semilunar) valve • Into the pulmonary artery

  8. Pulmonary Circulation • From RV into pulmonary artery (PA) • Pulmonary artery branches to arterioles • Arterioles become capillaries • Capillaries wrap around alveoli to allow oxygen & carbon dioxide exchange • Capillaries become venules, become veins • Join to form the main pulmonary vein (PV)

  9. Left Atrium • Receives oxygenated blood from pulmonary veins • Blood leaves LA through mitral (bicuspid) valve (also prevents backflow) • Atria produce • Atrial natriuretic peptide (ANP) when BP or volume is high (antagonist to aldosterone) • ANP decreases renal Na+ & H2O reabsorption

  10. Left Ventricle • Receives blood through mitral valve • Also attached to chordae tendinae & papillary muscles • Thicker walls than RV, stronger pump • Blood leaves the LV through the aortic valve • Blood enters the aorta (largest artery in the body)

  11. Coronary Vessels • Coronary Arteries • Blood supply to the myocardium • R & L coronary arteries (RCA & LCA) • First branches of the ascending aorta • Ischemia: condition of insufficient blood supply or perfusion • Infarct: cell death related to ischemia

  12. Cardiac Cycle • Sequence of events during a single heartbeat • Simultaneous atrial contraction • Fraction of a second pause • Simultaneous ventricular contraction • Systole (contraction) • Atrial systole, ventricular systole • Diastole (relaxation)

  13. Cardiac Cycle • Atrial diastole overlaps ventricular systole • Ventricular systole is longer than atrial systole • Most of the atrial blood flows passively into the ventricles, then a small contraction • Atrial kick • The veins are constantly emptying blood into the atria • AV valves (tricuspid & mitral) open when pressure is high in the RA and LA

  14. Heart Sounds • Two heart sounds normally • First heart sound (S1) • Loudest, longest in duration • Caused by AV valves closing • Second heart sound (S2) • Caused by aortic and pulmonic (semilunar) valve closure

  15. Heart Murmurs • Abnormal or extra heart sound caused by valvular disease • Turbulent blood flow creates a sound • Regurgitation • Incompetent or leaky valve, allows backflow of blood into atria during ventricular systole • Stenosis • Narrow valve opening, blood cannot flow easily and creates turbulence

  16. Cardiac Conduction Pathway • Specific route traveled by spontaneous cardiac electrical impulses • Nerve cells are not required • This allows the orderly sequence of the cardiac cycle

  17. Conducting Pathway: Anatomy • Sinoatrial node (SAN) • In RA wall • The normal pacemaker of the heart • Normal rate 60-100/min • fastest depolarization of any cardiac cells • Sends electrical impulse through atrial myocardium to the AVN • This causes atrial systole

  18. Conducting Pathway: Anatomy • Atrioventricular Node (AVN) • In the inferior part of the interatrial septum • Slows the impulse (heart rate) a bit • Normal rate is 50-60/minute • Then conduction goes on to the ventricle

  19. Conducting Pathway: Anatomy • Ventricular conducting pathway: slower rate of conduction: 30-40/minute • Bundle of His (AV Bundle) • Superior part of interventricular septum • Bundle Branches (right & left) • Purkinje fibers • To the rest of the ventricular myocardium • This causes ventricular systole

  20. Diseases of the Conducting System • Arrhythmias (Dysrhythmias): abnormal conduction through the conducting system • May be caused by ischemia • May be irregular, too fast (tachycardia), or too slow (bradycardia) • Palpitations: • A symptom, a sense of irregular or pounding heart rate, range from harmless to critical

  21. Dysrhythmia Categories • Ectopic focus • A beat generated by any other part of the myocardium than the SAN, makes the rhythm irregular • Flutter: fast rapid rate, atrial flutter • Fibrillation • Chaotic conduction outside of the usual conduction pathway • Atrial fibrillation: common chronic dysrhythmia • Ventricular conduction: common cardiac arrest rhythm • Often occurs with MI, treatment is electrical defibrillation

  22. Electrocardiogram • Called ECG or EKG • Linear recording of the electrical conduction of the heart • Done via electrodes placed at standard places on the chest • Used to determine two findings: • The type of cardiac rhythm • The degree of cardiac ischemia

  23. Electrocardiogram • Complexes on the EKG • P wave: atrial depolarization • QRS complex • Ventricular depolarization and • Atrial repolarization • T wave • Ventricular repolarization

  24. Heart Rate • Coordinates with pulse normally • 60-80 beats/minute • Usually slightly slower than SAN rate • SAN rate slowed by parasympathetic nerves • Bradycardia • Rate less than 60/minute • Tachycardia • Rate over 100/minute

  25. Heart Rates • Children • 100-140/minute • Conditioned athletes • 50/minute • Marathon runners • 35-40/minute

  26. Cardiac Output • The amount of blood pumped out of the heart by the ventricle in 1 minute • Cardiac output = • Stroke volume (SV) times heart rate (HR) • SV = amount of blood pumped by ventricle in each beat (contraction), 60-80 ml/beat • Normal CO is approximately 5-6 liters/minute

  27. Starling’s Law of the Heart • The more cardiac muscle fibers are stretched, the more forcefully they contract • This accounts for the increased CO during exercise • Increased venous return (of blood) to the heart • More blood stretches the cardiac fibers • They contract more forcefully, increasing SV

  28. Cardiac Output • Exercise CO = twice resting CO • This difference is the cardiac reserve • Usually 15 liters or more • Ejection fraction • Percentage of ventricular blood pumped out during systole • 60-70% is normal

  29. Regulation of Heart Rate • Medulla • Two cardiac centers • Accelerator center & inhibitory center • Pressoreceptors • Detect changes in BP • In carotid arteries & aortic arch • Chemoreceptors • Detect changes in oxygen content of blood • In carotid bodies & aortic body

  30. Regulation of Heart Rate • Afferent Nerves • Glossopharyngeal nerve (CN 9) • Vagus nerve (CN 10) • Efferent Nerves • Sympathetic nerves • Parasympathetic nerves

  31. Coronary Artery Disease • CAD • Etiology: decreased coronary artery blood flow, decreased myocardial perfusion • Most commonly due to • Atherosclerosis • Cholesterol & lipid-rich plaques in the coronary artery lumen • May cause angina

  32. Myocardial Infarction • MI • Etiology is thrombus forming on ruptured plaque • More acute situation than angina • Worse ischemia than angina • Death of some myocardial cells • Complications • Dysrhythmias, ventricular fibrillation, fatalities • Cardiac failure, cardiogenic shock

More Related