Kaan Yücel M.D., Ph.D.
description
Transcript of Kaan Yücel M.D., Ph.D.
Kaan Yücel M.D., Ph.D.
CARDIOVASCULAR SYSTEM
14. 10. 2014The Two Fridas 1939 by Frida Kahlo
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Trapezoidal in A-P dimensionsTipped-over pyramid in 3-D
crucial organ of the human body
(1)7.3 million
30%
1. HEART
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Right heart (Suction)poorly- oxygenated(venous) blood
from the bodysuperior vena cava & inferior vena cava right atrium right ventricle
pulmonary arteries lungs
Left heart (Pumping)well- oxygenated (arterial) blood
from the lungs pulmonary veins
left atrium left ventricleaorta
the body
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The four chambers of the heartright and left atria & right and
left ventriclesAtrium – plural atria
Receiving chambers
Ventricles
Discharging chambers
cardiac cycle
1. Ventricular filling (diastole)2. Ventricular emptying
(systole)Blood pressure120-80 mm/Hg
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The fibrous skeleton of the heart
Keeps the orifices of the AV & semilunar valves patent prevents them from being overly distended by an increased volume of blood.
Provides attachments for the valves & myocardium.
Forms an electrical «insulator»separating impulses of the atria & ventricles they contract independently surrounding and providing passage for the initial part of the AV bundle
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SULCI/GROOVES IN THE HEART
coronary sulcus (atrioventricular groove)between atrium & ventricles
anterior & posterior interventricular (IV) sulci (grooves)
between right and left ventricles
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APEX & BASE OF THE HEARTapex located inferiorly & base located
superiorlyApex projects forward, downward and to the left
Base faces in a posterior direction
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Anterior (sternocostal) surface o mostly of right ventricleo some of the right atrium on the right o some of the left ventricle on the left
Diaphragmatic (inferior) surfaceo formed mainly by the left ventricle o partly by the right ventricleo related to central tendon of diaphragm.
Right pulmonary surface o formed by the right atrium.
Left pulmonary surfaceo left ventricle & a portion of left atrium.
THE FOUR SURFACES OF THE HEART
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RIGHT ATRIUM RIGHT ATRIUM
forms the right border of the heartReceives venous blood from the SVC, IVC, and coronary sinus.
Through the right atrioventricular orifice, discharges the poorly oxygenated blood it has received
into the right ventricle.
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RIGHT VENTRICLERIGHT VENTRICLE
forms largest part of the anterior surface of the hearta small part of the diaphragmatic surfacealmost the entire inferior border of the heart.
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Bulges into the cavity of the right ventricle.
Superiorly and posteriorly, a thin membrane, forms the much smaller membranous part of the IVS.
interventricular septum (IVS)
muscular and membranous parts
obliquely placed partition between the right and left ventricles, forming part of the walls of each
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LEFT ATRIUMLEFT ATRIUM
right and left pulmonary veins enter here. Tubular, muscular left auricle, Its wall trabeculated with pectinate muscles.
forms most of the base of the heart
A semilunar depression in the interatrial septum Floor of the oval fossa
surrounding ridge Valve of the oval fossa
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LEFT VENTRICLELEFT VENTRICLEforms the apex of the heart, left (pulmonary) surface & border, most of the diaphragmatic surface.
Compared to the right ventricle Walls 2-3 times thicker Trabeculae carneae finer and more numerousCavity longer Anterior & posterior papillary muscles larger
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aortic valve semilunar valvebetween the left ventricle & ascending aortaobliquely placed.
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Guards the left AV orifice.Has two cusps, anterior and posterior.
mitral valvedouble-leaflet mitral valve
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SEMILUNAR VALVESSEMILUNAR VALVES
Semilunar cusps of the pulmonary valve anterior-right-left
Seminular cusps of the aortic valve posterior-right-left
concave when viewed superiorlyno tendinous cords to support
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VASCULATURE OF THE HEARTVASCULATURE OF THE HEART
embedded in fat course across the surface of the heart just deep to the epicardium.
coronary arteries & cardiac veins
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ARTERIAL SUPPLY OF THE HEART
coronary arteries
first branches of the aortasupply the myocardium and epicardium
Anastomoses between the branches of the coronary arteries exist, which enables the development of the collateral circulation.
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STIMULATING, CONDUCTING, & REGULATING SYSTEMS OF HEARTSTIMULATING, CONDUCTING, & REGULATING SYSTEMS OF HEART
1. sinuatrial (SA) node initiates the heartbeat & coordinates contractions of the four heart chambers2.atrioventricular (AV) node
3.bundleshighly specialized conducting fibers for conducting impulses rapidly
to different areas of the heart
o Propagation of the impluseo Simultaneous contraction of the cardiac striated muscle cells
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SINUATRIAL (SA) NODEpacemaker of the heart
@junction of the SVC & right atriumnear to the superior end of the sulcus terminalis
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stimulated by sympathetic division of the autonomic nervous system to accelerate the heart rate
inhibited by parasympathetic division to return to or approach its basal rate.
SINUATRIAL (SA) NODEpacemaker of the heart
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ATRIOVENTRICULAR (AV) NODEa smaller collection of nodal tissue than the
SA node
in the posteroinferior region of the interatrial septumnear the opening of the coronary sinus
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JOURNEY OF THE SIGNALGenerated @ SA node
Passed through the walls of the right atrium
Propageted by the cardiac muscle
Signal passed from SA node to AV node
Distributed to the ventricles through the AV bundle
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BUNDLES
passes from the AV node through the fibrous skeleton of the heart and along the membranous part of the IVS.
@ junction of membranous & muscular parts of the IVSdivides into : right bundle & left bundle.
AV bundle
the only bridge between the atrial and ventricular myocardium
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right and left bundles proceed on each side of the muscular IVS deep to the endocardium
then ramify into subendocardial branches (Purkinje fibers)
extend into the walls of the respective ventricles.
BUNDLES
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INNERVATION OF THE HEARTautonomic nervous system,
cardiac plexus Cardiac plexus
posterior to the ascending aorta and bifurcation of the pulmonary trunk
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Parasympathetic supply presynaptic fibers of the vagus nerves
Slows the heart rateReduces the force of the contractionConstricts the coronary arteries saving energy
INNERVATION OF THE HEARTautonomic nervous system,
cardiac plexus
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sympathetic supplypresynaptic fiberscell bodies in the intermediolateral cell columns (IMLs) of the superior 5 or 6 thoracic segments postsynaptic sympathetic fiberscell bodies in the cervical and superior thoracic paravertebral ganglia of the sympathetic trunks.
causes increased heart rateincreased impulse conduction, increased force of contraction, increased blood flow through the coronary vessels increased activity.
INNERVATION OF THE HEART
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9. SEPTAL DEFECTS9. SEPTAL DEFECTSAtrial Septal Defects (ASD)
congenital anomaly of the interatrial septum
a hole between the two atriaWhat happens?Oxygenated blood from the lungs
Left atrium Right atrium
Results in
enlargement of right atrium & ventricledilation of the pulmonary trunk
More blood in the right heart
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Ventricular Septal Defects (VSD)
What happens?
Results in
membranous part of the IVS common site of VSDs
rank first on all lists of cardiac defects
Oxygenated blood from the ventricles Left ventricle Right ventricle
in pulmonary blood flow severe pulmonary disease
(hypertension) cardiac failure
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10. VALVULAR HEART DISEASES
10. VALVULAR HEART DISEASES
Disturb pumping efficiency of the heart. Stenosis (narrowing) or insufficiency
Both result in an increased workload for the heart.
Valvuloplasty repairing the heart valves
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Scarring and shortening of the cusps results in insufficiencyRestricts the outflow of the left ventricle Leads to the hypertrophy of the myocardiumDuring ventricular systole, blood regurgitates back to the left atriumA hurt murmur will be heard.
MITRAL VALVE INSUFFICIENCY
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Narrowing of the mitral orifice.Restricts the outflow of the left atrium.A murmur will be heard during atrial contraction.
MITRAL VALVE STENOSIS
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Narrowing of the pulmonary valve due to the fused cusps.Restricts the outflow of the right ventricle. Leads to the hypertrophy of the myocardium.
PULMONARY VALVE STENOSIS
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Incomplete closure of the cusps due to thickening of their free margins due to a disease. During diastole, blood regurgitates back to the right ventricle from the pulmonary trunk.Heart murmur could be heard.
PULMONARY VALVE INCOMPETENCE
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Blood is unable to flow freely from left ventricle to aorta.A result of degenerative calcification, fusion of the aortic cups as a result. Causes extra work for the heart, resulting in left ventricular hypertrophy.
AORTIC VALVE STENOSISmost frequent valve
abnormality
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During diastole blood regurgitates from aorta back to the left ventricle.A hurt murmur will be heard during diastole.
AORTIC VALVE INSUFFICIENCY
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could be heard by stethoscope.
produced due to the turbulence caused by the blood passing from a narrow opening into a larger vessel or chamber.
HEART MURMURa pathologic sound
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tricuspid valve behind the right half of the sternum opposite 4th intercostal space
mitral valve behind the left half of the sternum opposite 4th costal cartilage
pulmonary valve behind the medial end of the 3rd left costal cartilage and adjoining part of the sternum
aortic valve behind the left half of the sternum opposite 3rd intercostal space.
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S1 produced by contraction of the ventricles closure of the tricuspid & mitral valves (AV valves) S2produced by the sharp closure of the aortic & pulmonary valves hear sounds produced at each valve with the minimum of distraction or interference
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tricuspid valve right half of lower end of the body of the sternum
pulmonary valve medial end of the second left intercostal space
aortic valve medial end of the second right intercostal space
mitral valve apex beat fifth left intercostal
space, 9 cm from the midline
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PERICARDIUMPERICARDIUM
a closed sac with two layersfibrous pericardium
serous pericardiumparietal layervisceral layer –heart & great vessels.
fibroserous membrane, covers the heart & beginning of its great vessels
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Continuous inferiorly w/ central tendon of the diaphragm Attached anteriorly to the sternum by sternopericardial ligamentsSite of continuity pericardiacophrenic ligament Inner surface lined by parietal layer of the serous pericardium Protects the heart against sudden overfilling.
fibrous pericardiumcontinuous superiorly w/ tunica adventitia of the great vessels & w/pretracheal layer of deep cervical fascia
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contains a thin film of fluid : pericardial fluidenables the heart to move and beat in a frictionless environment.
pericardial cavity
potential space between opposing layers of the parietal & visceral layers of serous pericardium
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GREAT VESSELSGREAT VESSELS
posterior to the sternoclavicular (SC) joints.
brachiocephalic veins unite to form the SVC.
@ inferior border of the 1st right costal cartilage
shunt blood from the head, neck, & upper limbs right atrium.
RIGHT & LEFT BRACHIOCEPHALIC VEINS formed by the union of internal jugular & subclavian veins
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Returns blood from all structures superior to the diaphragmexcept the lungs
& heart.
Passes inferiorly and ends by entering right atrium of the heart.
SUPERIOR VENA CAVA (SVC)
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begins at the aortic orifice.
only branches coronary arteries, arising from the aortic sinuses.
ASCENDING AORTA
asce
nd
ing
ao
rta
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begins posterior to the 2nd right sternocostal (SC) joint at the level of the sternal angle. ligamentum arteriosum remnant of the fetal ductus arteriosus
root of the left pulmonary artery inferior surface of the arch of the aorta
The usual branches of the arch 1) brachiocephalic trunk2) left common carotid artery3) left subclavian artery.
Arch of the aorta (Aortic arch)curved continuation of the
ascending aorta
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arises posterior to the manubrium. ascends superolaterallydivides into right common carotid & right subclavian arteries.
BRACHIOCEPHALIC TRUNKfirst and largest branch of the arch of the aorta
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arises o posterior to the manubrium, o slightly posterior and to the left of the brachiocephalic trunk.
LEFT COMMON CAROTID ARTERYsecond branch of the arch of the aorta
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arises from the posterior part of the arch
posterior to left common carotid artery.
ascends lateral to trachea & left common carotid artery.
Leaves the thorax and enters the root of the neck.
LEFT SUBCLAVIAN ARTERYthird branch of the arch of the
aorta
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CAROTID BODY
CAROTID SINUSmonitor changes in blood pressure
responsible for detecting changes in blood chemistry, primarily oxygen content
CN IXCN X
CN IX
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Abdominal aorta
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External iliac artery
Femoral artery
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Popliteal artery
Anterior tibial artery Posterior tibial artery
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Anterior tibial artery
Dorsal pedis artery
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U Superficial
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