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Body Heart Presentation Transcript

Slide 1 - 1 The Heart
Slide 2 - 2 Overview The right side receives oxygen-poor blood from the body and tissues and then pumps it to the lungs to pick up oxygen and dispel carbon dioxide Its left side receives oxygenated blood returning from the lungs and pumps this blood throughout the body to supply oxygen and nutrients to the body tissues The heart=a muscular double pump with 2 functions
Slide 3 - 3 simplified… Cone shaped muscle Four chambers Two atria, two ventricles Double pump – the ventricles Two circulations Systemic circuit: blood vessels that transport blood to and from all the body tissues Pulmonary circuit: blood vessels that carry blood to and from the lungs
Slide 4 - 4 Heart’s position in thorax
Slide 5 - 5 Heart’s position in thorax In mediastinum – behind sternum and pointing left, lying on the diaphragm It weighs 250-350 gm (about 1 pound) Feel your heart beat at apex (this is of a person lying down)
Slide 6 - 6
Slide 7 - 7 CXR(chest x ray) Normal male
Slide 8 - 8 Chest x rays Normal female Lateral (male)
Slide 9 - 9 Pericardium(see next slide) Starting from the outside… Without most of pericardial layers
Slide 10 - 10 Coverings of the heart: pericardium Three layered: (1) Fibrous pericardium Serous pericardium of layers (2) & (3) (2) Parietal layer of serous pericardium (3) Visceral layer of serous pericardium = epicardium: on heart and is part of its wall (Between the layers is pericardial cavity)
Slide 11 - 11 How pericardium is formed around heart
Slide 12 - 12 Layers of the heart wall Muscle of the heart with inner and outer membrane coverings Muscle of heart = “myocardium” The layers from out to in: Epicardium = visceral layer of serous pericardium Myocardium = the muscle Endocardium lining the chambers
Slide 13 - 13 Layers of pericardium and heart wall
Slide 14 - 14 Chambers of the heartsides are labeled in reference to the patient facing you Two atria Right atrium Left atrium Two ventricles Right ventricle Left ventricle --------------------------------------------------------------------------------
Slide 15 - 15 Chambers of the heartdivided by septae: Two atria-divided by interatrial septum Right atrium Left atrium Two ventricles-divided by interventricular septum Right ventricle Left ventricle
Slide 16 - 16 Valvesthree tricuspidone bicuspid “Tricuspid” valve RA to RV Pulmonary or pulmonic valve RV to pulmonary trunk (branches R and L) Mitral valve (the bicuspid one) LA to LV Aortic valve LV to aorta (cusp means flap)
Slide 17 - 17 Function of AV valves
Slide 18 - 18 Function of semilunar valves (Aortic and pulmonic valves)
Slide 19 - 19 Pattern of flow(simple to more detailed) Body RA RV Lungs LA LV Boby Body to right heart to lungs to left heart to body Body, then via vena cavas and coronary sinus to RA, to RV, then to lungs via pulmonary arteries, then to LA via pulmonary veins, to LV, then to body via aorta From body via SVC, IVC & coronary sinus to RA; then to RV through tricuspid valve; to lungs through pulmonic valve and via pulmonary arteries; to LA via pulmonary veins; to LV through mitral valve; to body via aortic valve then aorta LEARN THIS
Slide 20 - 20 Chambers with embryologic changes addedfetal in pink; postnatal in blue(see next slide) Two atria------------divided by interatrial septum Fossa ovalis left over from fetal hole in septum, the foramen ovale Right atrium--------in fetus RA received oxygenated blood from mom through umbilical cord, so blood R to L through the foramen ovale Left atrium Two ventricles-----divided by interventricular septum Right ventricle-----in fetus pulmonary trunk high resistance & ductus arteriosus shunts blood to aorta Ductus arteriosus becomes ligamentum arteriosum after birth Left ventricle
Slide 21 - 21 In the fetus, the RA received oxygenated blood from mom through umbilical cord, so blood R to L through the foramen ovale: fossa ovalis is left after it closes The pulmonary trunk had high resistance (because lungs not functioning yet) & ductus arteriosus shunted blood to aorta; becomes ligamentum arteriosum after birth
Slide 22 - 22 Note positions of valves Valves open and close in response to pressure differences Trabeculae carnae Note papillary muscles, chordae tendinae (heart strings): keep valves from prolapsing (purpose of valve = 1 way flow)
Slide 23 - 23 Relative thickness of muscular walls LV thicker than RV because it forces blood out against more resistance; the systemic circulation is much longer than the pulmonary circulation Atria are thin because ventricular filling is done by gravity, requiring little atrial effort
Slide 24 - 24
Slide 25 - 25 more on valves
Slide 26 - 26 Simplified flow: print and fill in details
Slide 27 - 27 Heartbeat Systole: contraction Diastole: filling Normal rate: 60-100 Slow: bradycardia Fast: tachycardia ***Note: blood goes to RA, then RV, then lungs, then LA, then LV, then body; but the fact that a given drop of blood passes through the heart chambers sequentially does not mean that the four chambers contract in that order; the 2 atria always contract together, followed by the simultaneous contraction of the 2 ventricles Definition: a single sequence of atrial contraction followed by ventricular contraction See http://www.geocities.com/Athens/Forum/6100/1heart.html
Slide 28 - 28 Heart sounds Called S1 and S2 S1 is the closing of AV (Mitral and Tricuspid) valves at the start of ventricular systole S2 is the closing of the semilunar (Aortic and Pulmonic) valves at the end of ventricular systole Separation easy to hear on inspiration therefore S2 referred to as A2 and P2 Murmurs: the sound of flow Can be normal Can be abnormal
Slide 29 - 29 Places to auscultate Routine places are at right and left sternal border and at apex To hear the sounds: http://www.med.ucla.edu/wilkes/intro.html Note that right border of heart is formed by the RA; most of the anterior surface by the RV; the LA makes up the posterior surface or base; the LV forms the apex and dominates the inferior surface
Slide 30 - 30 Cardiac muscle(microscopic) Automaticity: inherent rhythmicity of the muscle itself
Slide 31 - 31 “EKG”(or ECG, electrocardiogram) Electrical depolarization is recorded on the body surface by up to 12 leads Pattern analyzed in each lead P wave=atrial depolarization QRS=ventricular depolarization T wave=ventricular repolarization
Slide 32 - 32 Electrical conduction system: (Explanation in next slides) specialized cardiac muscle cells that carry impulses throughout the heart musculature, signaling the chambers to contract in the proper sequence
Slide 33 - 33 Conduction system SA node (sinoatrial) In wall of RA Sets basic rate: 70-80 Is the normal pacemaker Impulse from SA to atria Impulse also to AV node via internodal pathway AV node In interatrial septum
Slide 34 - 34 Conduction continued SA node through AV bundle (bundle of His) Into interventricular septum Divides R and L bundle branches become subendocardial branches (“Purkinje fibers”) Contraction begins at apex
Slide 35 - 35
Slide 36 - 36 12 lead EKG
Slide 37 - 37 Artificial Pacemaker
Slide 38 - 38 Autonomic innervation Sympathetic Increases rate and force of contractions Parasympathetic (branches of Vagus n.) Slows the heart rate http://education.med.nyu.edu/courses/old/physiology/courseware/ekg_pt1/EKGseq.html For a show on depolarization:
Slide 39 - 39 Blood supply to the heart(there’s a lot of variation) A: Right Coronary Artery; B: Left Main Coronary Artery; C: Left Anterior Descending (LAD, or Left Anterior Interventricular);D: Left Circumflex Coronary Artery; G: Marginal Artery; H: Great Cardiac Vein; I: Coronary sinus, Anterior Cardiac Veins.
Slide 40 - 40 Anterior view L main coronary artery arises from the left side of the aorta and has 2 branches: LAD and circumflex R coronary artery emerges from right side of aorta
Slide 41 - 41 Note that the usual name for “anterior interventricular artery” is the LAD (left anterior descending)
Slide 42 - 42 A lot of stuff from anterior view Each atrium has an “auricle,” an ear-like flap
Slide 43 - 43
Slide 44 - 44 A lot of stuff from posterior view
Slide 45 - 45 Again posterior view Note: the coronary sinus (largest cardiac vein) – delivers blood from heart wall to RA, along with SVC & IVC)
Slide 46 - 46 another flow chart
Slide 47 - 47 Embryological development during week 4 (helps to understand heart defects) Day 22, (b) in diagram, heart starts pumping (day 24) (day 28) (day 23)
Slide 48 - 48 Normal and abnormal Congenital (means born with) abnormalities account for nearly half of all deaths from birth defects One of every 150 newborns has some congenital heart defect
Slide 49 - 49 more…
Slide 50 - 50 See Paul Wissman’s website: main link; then Anatomy and Physiology then Human heart: http://homepage.smc.edu/wissmann_paul/ http://homepage.smc.edu/wissmann_paul/anatomy1/ http://homepage.smc.edu/wissmann_paul/anatomy1/1heart.html Then from this site: click-on from the following list of Human Heart Anatomy Web Sites: SMC pictures of the Human Heart: http://homepage.smc.edu/wissmann_paul/heartpics/ 3) Human Heart Anatomy 7) NOVA PBS animation of Heart Cycle: http://www.geocities.com/Athens/Forum/6100/1heart.html
Slide 51 - 51 http://homepage.smc.edu/wissmann_paul/heartpics/ There are dissections like this with roll over answers LOOK AT THESE!
Slide 52 - 52 OTHER CARDIOVASCULAR LINKS http://library.med.utah.edu/WebPath/CVHTML/CVIDX.html#2 (example upper right) http://www.geocities.com/Athens/Forum/6100/1heart.html (heart contraction animation & others) http://www.med.ucla.edu/wilkes/intro.html (heart sounds) http://education.med.nyu.edu/alexcourseware/physiology/ekg_pt1 (depolarization animation)
Slide 53 - 53 Use to study