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Heart Anatomy

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Heart Anatomy. Approximately the size of your fist. Wt. = 250-300 grams. Location ... Allows for the heart to work in a relatively friction-free environment ... – PowerPoint PPT presentation

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Title: Heart Anatomy


1
Heart Anatomy
  • Approximately the size of your fist
  • Wt. 250-300 grams
  • Location
  • In the mediastinum between the lungs
  • Superior surface of diaphragm
  • ?s of it lies to the left of the midsternal line
  • Anterior to the vertebral column, posterior to
    the sternum

2
Heart Anatomy
Figure 18.1
3
Coverings of the Heart
  • Pericardium a double-walled sac around the
    heart
  • Composed of
  • A superficial fibrous pericardium
  • A deep two-layer serous pericardium
  • The parietal layer lines the internal surface of
    the fibrous pericardium
  • The visceral layer or epicardium lines the
    surface of the heart
  • They are separated by the fluid-filled
    pericardial cavity called the pericardial cavity
  • Protects and anchors the heart
  • Prevents overfilling of the heart with blood
  • Allows for the heart to work in a relatively
    friction-free environment

4
Pericardial Layers of the Heart
Figure 18.2
5
Layers of the Heart Wall
  • Epicardium visceral pericardium
  • Myocardium cardiac muscle layer forming the
    bulk of the heart
  • Endocardium endothelial layer of the inner
    myocardial surface

6
Heart Anatomy
  • External markings
  • Apex - pointed inferior region
  • Base - upper region
  • Coronary sulcus
  • Indentation that separates atria from ventricles
  • Anterior and posterior interventricular sulcus
  • Separates right and left ventricles
  • Internal divisions
  • Atria (superior) and ventricles (inferior)
  • Interventricular and interatrial septa

7
Atria of the Heart
  • Atria - receiving chambers of the heart
  • Receive venous blood returning to heart
  • Separated by an interatrial septum (wall)
  • Foramen ovale - opening in interatrial septum in
    fetus
  • Fossa ovalis - remnant of foramen ovale
  • Each atrium has a protruding auricle
  • Pectinate muscles mark atrial walls
  • Pump blood into ventricles
  • Blood enters right atria from superior and
    inferior venae cavae and coronary sinus
  • Blood enters left atria from pulmonary veins

8
Gross Anatomy of Heart Frontal Section
Figure 18.4e
9
Ventricles of the Heart
  • Ventricles are the discharging chambers of the
    heart
  • Papillary muscles and trabeculae carneae muscles
    mark ventricular walls
  • Separated by an interventricular septum
  • Contains components of the conduction system
  • Right ventricle pumps blood into the pulmonary
    trunk
  • Left ventricle pumps blood into the aorta
  • Thicker myocardium due to greater work load
  • Pulmonary circulation supplied by right ventricle
    is a much low pressure system requiring less
    energy output by ventricle
  • Systemic circulation supplied by left ventricle
    is a higher pressure system and thus requires
    more forceful contractions

10
External Heart Anterior View
Figure 18.4b
11
Structure of Heart Wall
  • Left ventricle three times thicker than right
  • Exerts more pumping force
  • Flattens right ventricle into a crescent shape

Figure 18.7
12
Heart Valves
  • Heart valves ensure unidirectional blood flow
    through the heart
  • Composed of an endocardium with a connective
    tissue core
  • Two major types
  • Atrioventricular valves
  • Semilunar valves
  • Atrioventricular (AV) valves lie between the
    atria and the ventricles
  • R-AV valve tricuspid valve
  • L-AV valve bicuspid or mitral valve
  • AV valves prevent backflow of blood into the
    atria when ventricles contract
  • Chordae tendineae anchor AV valves to papillary
    muscles of ventricle wall
  • Prevent prolapse of valve back into atrium

13
Semilunar Heart Valves
  • Semilunar valves prevent backflow of blood into
    the ventricles
  • Have no chordae tendinae attachments
  • Aortic semilunar valve lies between the left
    ventricle and the aorta
  • Pulmonary semilunar valve lies between the right
    ventricle and pulmonary trunk
  • Heart sounds (lub-dup) due to valves closing
  • Lub - closing of atrioventricular valves
  • Dub- closing of semilunar valves

14
Fibrous Skeleton
  • Surrounds all four valves
  • Composed of dense connective tissue
  • Functions
  • Anchors valve cusps
  • Prevents overdilation of valve openings
  • Main point of insertion for cardiac muscle
  • Blocks direct spread of electrical impulses

15
Heart Valves
16
Conducting System
  • Cardiac muscle tissue has intrinsic ability to
  • Generate and conduct impulses
  • Signal these cells to contract rhythmically
  • Conducting system
  • A series of specialized cardiac muscle cells
  • Sinoatrial (SA) node sets the inherent rate of
    contraction

17
Conducting System
18
Innervation
  • Heart rate is altered by external controls
  • Nerves to the heart include
  • Visceral sensory fibers
  • Parasympathetic branches of the vagus nerve
  • Sympathetic fibers from cervical and upper
    thoracic chain ganglia

19
External Heart Posterior View
Figure 18.4d
20
Major Vessels of the Heart
  • Vessels returning blood to the heart include
  • Superior and inferior venae cavae
  • Open into the right atrium
  • Return deoxygenated blood from body cells
  • Coronary sinus
  • Opens into the right atrium
  • Returns deoxygenated blood from heart muscle
    (coronary veins)
  • Right and left pulmonary veins
  • Open into the left atrium
  • Return oxygenated blood from lungs

21
Major Vessels of the Heart
  • Vessels conveying blood away from the heart
    include
  • Pulmonary trunk
  • Carries deoxygenated blood from right ventricle
    to lungs
  • Splits into right and left pulmonary arteries
  • Ascending aorta
  • Carries oxygenated blood away from left atrium to
    body organs
  • Three major branches
  • Brachiocephalic
  • Left common carotid,
  • Left subclavian artery

22
Blood Flow Through the Heart
Figure 18.6
23
Pathway of Blood Through the Heart and Lungs
Figure 18.5
24
Coronary Circulation
  • Coronary circulation
  • The functional blood supply to the heart muscle
    itself
  • R and L Coronary arteries are 1st branches off
    the ascending aorta
  • Coronary sinus (vein) empties into R. atrium
  • Collateral routes ensure blood delivery to heart
    even if major vessels are occluded

25
Coronary Circulation - Arteries
  • Right Coronary Artery
  • Supplies blood to
  • Right atrium and posterior surface of both
    ventricles
  • Branches into the
  • Marginal artery - extends across surface of R.
    ventricle
  • Posterior interventricular artery
  • Found in posterior interventricular sulcus
  • Left Coronary Artery
  • Supplies blood to
  • Left atrium and left ventricle
  • Branches into
  • Circumflex artery
  • Anterior interventricular artery
  • Found in anterior interventricular sulcus
  • Connected with posterior interventricular artery
    via arterial anastomoses

26
Coronary Circulation Arterial Supply
Figure 18.7a
27
Coronary Circulation - Veins
  • Coronary sinus -
  • Vein that empties into right atrium
  • Receives deoxygenated blood from
  • Great cardiac vein - on anterior surface
  • Posterior cardiac vein
  • Drains area served by circumflex
  • Middle cardiac vein
  • Drains area served by posterior interventricular
    artery
  • Small cardiac vein
  • Drains blood from posterior surfaces of right
    atrium and ventricle

28
Coronary Circulation Venous Supply
Figure 18.7b
29
Microscopic Anatomy of Heart Muscle
  • Cardiac muscle cells
  • Short, striated, branched, and interconnected
  • The connective tissue endomysium acts as both
    tendon and insertion
  • Intercalated discs anchor cardiac cells together
    and allow free passage of ions
  • Heart muscle behaves as a functional syncytium
  • Many mitochondria (25 of total volume)

30
Microscopic Anatomy of Heart Muscle
Figure 18.11
31
Disorders of the Heart
  • Coronary artery disease
  • Atherosclerosis fatty deposits
  • Arteriosclerosis - hardening of the arteries
  • Angina pectoris chest pain
  • Myocardial infarction blocked coronary artery
  • Silent ischemia no pain or warning
  • Fibrillation - irregular heart beat may occur in
    either atria or ventricles
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