1. Cardiovascular System
The Cardiovascular System: The Heart: Part A
Cardiovascular System

2. The Pulmonary and Systemic Circuits
Heart is transport system; two side-by-side pumps
Pulmonary Circuit
Right side receives oxygen-poor blood from tissues
Pumps to lungs to get rid of CO2, pick up O2
Systemic Circuit
Left side receives oxygenated blood from lungs
Pumps to body tissues
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3. The Pulmonary and Systemic Circuits
Receiving chambers of heart:
Right atrium
Receives blood returning from systemic circuit
Left atrium
Receives blood returning from pulmonary circuit
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4. The Pulmonary and Systemic Circuits
Pumping chambers of heart:
Right ventricle
Pumps blood through pulmonary circuit
Left ventricle
Pumps blood through systemic circuit
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5. Figure 18.1 The systemic and pulmonary circuits.
Capillary beds of
lungs where gas
exchange occurs
Pulmonary Circuit
Pulmonary
arteries
Pulmonary veins
Aorta and branches
Venae
cavae
Left
atrium
Left
ventricle
Right
atrium
Heart
Right
ventricle
Systemic Circuit
Capillary beds of all
body tissues where
gas exchange occurs
Oxygen-rich,
CO2-poor blood
Oxygen-poor,
CO2-rich blood
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6. Heart Anatomy Approximately size of fist Location:
In mediastinum between second rib and fifth intercostal space
Two-thirds of heart to left of midsternal line
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7. Heart Anatomy Base (posterior surface) leans toward right shoulder
Apex points toward left hip
Apical impulse palpated between fifth and sixth ribs, just below left nipple
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8. Figure 18.2a Location of the heart in the mediastinum.
Midsternal line
2nd rib
Sternum
Diaphragm
Location of
apical impulse
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9. Figure 18.2b Location of the heart in the mediastinum.
Left lung
Body of T7
vertebra
Posterior
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10. Superior Aorta vena cava Parietal pleura (cut) Pulmonary Left lung
trunk
Left lung
Pericardium (cut)
Apex of heart
Diaphragm
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11. Coverings of the Heart: Pericardium
Double-walled sac
Superficial fibrous pericardium
Protects, anchors to surrounding structures, and prevents overfilling
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12. Pericardium Deep two-layered serous pericardium
Parietal layer lines internal surface of fibrous pericardium
Visceral layer (epicardium) on external surface of heart
Two layers separated by fluid-filled pericardial cavity (decreases friction)
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13. Fibrous pericardium Pericardium Myocardium
Pulmonary
trunk
Fibrous pericardium
Parietal layer of serous
pericardium
Pericardium
Myocardium
Pericardial cavity
Epicardium (visceral
layer of serous
pericardium)
Heart
wall
Myocardium
Endocardium
Heart chamber
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14. Homeostatic Imbalance
Pericarditis
Inflammation of pericardium
Roughens membrane surfaces  pericardial friction rub (creaking sound) heard with stethoscope
Cardiac tamponade
Excess fluid sometimes compresses heart  limited pumping ability
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15. Layers of the Heart Wall
Three layers of heart wall:
Epicardium
Myocardium
Endocardium
Visceral layer of serous pericardium
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16. Layers of the Heart Wall
Myocardium
Spiral bundles of contractile cardiac muscle cells
Cardiac skeleton: crisscrossing, interlacing layer of connective tissue
Anchors cardiac muscle fibers
Supports great vessels and valves
Limits spread of action potentials to specific paths
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17. Layers of the Heart Wall
Endocardium continuous with endothelial lining of blood vessels
Lines heart chambers; covers cardiac skeleton of valves
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18. Fibrous pericardium Pericardium Myocardium
Pulmonary
trunk
Fibrous pericardium
Parietal layer of serous
pericardium
Pericardium
Myocardium
Pericardial cavity
Epicardium (visceral
layer of serous
pericardium)
Heart
wall
Myocardium
Endocardium
Heart chamber
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19. Cardiac
muscle
bundles
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20. Chambers Four chambers: Interatrial septum – separates atria
Two superior atria
Two inferior ventricles
Interatrial septum – separates atria
Fossa ovalis – remnant of foramen ovale of fetal heart
Interventricular septum – separates ventricles
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21. Right pulmonary artery Left pulmonary veins Pulmonary trunk
Aorta
Left pulmonary artery
Superior vena cava
Left atrium
Right pulmonary artery
Left pulmonary veins
Pulmonary trunk
Right atrium
Mitral (bicuspid) valve
Right pulmonary veins
Fossa ovalis
Aortic valve
Pectinate muscles
Pulmonary valve
Tricuspid valve
Left ventricle
Right ventricle
Papillary muscle
Chordae tendineae
Interventricular septum
Trabeculae carneae
Epicardium
Inferior vena cava
Myocardium
Endocardium
Frontal section
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22. Chambers and Associated Great Vessels
Coronary sulcus (atrioventricular groove)
Encircles junction of atria and ventricles
Anterior interventricular sulcus
Anterior position of interventricular septum
Posterior interventricular sulcus
Landmark on posteroinferior surface
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23. Atria: The Receiving Chambers
Auricles
Appendages that increase atrial volume
Right atrium
Pectinate muscles
Posterior and anterior regions separated by crista terminalis
Left atrium
Pectinate muscles only in auricles
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24. Atria: The Receiving Chambers
Small, thin-walled
Contribute little to propulsion of blood
Three veins empty into right atrium:
Superior vena cava, inferior vena cava, coronary sinus
Four pulmonary veins empty into left atrium
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25. Ventricles: The Discharging Chambers
Most of the volume of heart
Right ventricle - most of anterior surface
Left ventricle – posteroinferior surface
Trabeculae carneae – irregular ridges of muscle on walls
Papillary muscles – anchor chordae tendineae
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26. Ventricles: The Discharging Chambers
Thicker walls than atria
Actual pumps of heart
Right ventricle
Pumps blood into pulmonary trunk
Left ventricle
Pumps blood into aorta (largest artery in body)
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27. Brachiocephalic trunk Right pulmonary artery
Left common carotid artery
Brachiocephalic trunk
Left subclavian artery
Superior vena cava
Aortic arch
Ligamentum arteriosum
Right pulmonary artery
Left pulmonary artery
Ascending aorta
Left pulmonary veins
Pulmonary trunk
Auricle of
left atrium
Right pulmonary veins
Circumflex artery
Right atrium
Right coronary artery
(in coronary sulcus)
Left coronary artery
(in coronary sulcus)
Anterior cardiac vein
Left ventricle
Right ventricle
Right marginal artery
Great cardiac vein
Anterior interventricular
artery (in anterior
interventricular sulcus)
Small cardiac vein
Inferior vena cava
Apex
Anterior view
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28. Aortic arch (fat covered)
Pulmonary trunk
Auricle of right atrium
Auricle of left atrium
Anterior interventricular
artery
Right ventricle
Apex of heart (left ventricle)
Anterior aspect (pericardium removed)
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29. Ascending aorta (cut open) Superior vena cava
Pulmonary trunk
Aortic valve
Right ventricle anterior
wall (retracted)
Pulmonary valve
Trabeculae carneae
Interventricular
septum (cut)
Opening to right
atrium
Left ventricle
Papillary muscles
Chordae tendineae
Right ventricle
Photograph; view similar to (e)
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30. Heart Valves Ensure unidirectional blood flow through heart
Open and close in response to pressure changes
Two atrioventricular (AV) valves
Prevent backflow into atria when ventricles contract
Tricuspid valve (right AV valve)
Mitral valve (left AV valve, bicuspid valve)
Chordae tendineae anchor cusps to papillary muscles
Hold valve flaps in closed position
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31. Figure 18.7 The atrioventricular (AV) valves.
Blood returning to the heart fills
atria, pressing against the AV valves.
The increased pressure forces AV
valves open. 1
Direction of
blood flow
Atrium
Cusp of
atrioventricular
valve (open)
As ventricles fill, AV valve flaps
hang limply into ventricles. 2
Chordae
tendineae
Atria contract, forcing additional
blood into ventricles. 3
Papillary
muscle
Ventricle
AV valves open; atrial pressure greater than ventricular pressure
Atrium
Cusps of
atrioventricular
valve (closed)
Ventricles contract, forcing
blood against AV valve cusps. 1 2
AV valves close.
Blood in
ventricle
Papillary muscles contract and
chordae tendineae tighten,
preventing valve flaps from everting
into atria. 3
AV valves closed; atrial pressure less than ventricular pressure
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32. Heart Valves Two semilunar (SL) valves
Prevent backflow into ventricles when ventricles relax
Open and close in response to pressure changes
Aortic semilunar valve
Pulmonary semilunar valve
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33. Figure 18.8 The semilunar (SL) valves.
Aorta
Pulmonary
trunk
As ventricles contract and intraventricular pressure rises, blood is pushed up against semilunar valves, forcing them open.
Semilunar valves open
As ventricles relax and intraventricular pressure falls, blood flows back from arteries, filling the cusps of semilunar valves and forcing them to close.
Semilunar valves closed
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34. (left atrioventricular) valve
Figure 18.6a Heart valves.
Pulmonary valve
Aortic valve
Area of cutaway
Mitral valve
Tricuspid valve
Myocardium
Mitral
(left atrioventricular)
valve
Tricuspid
(right atrioventricular)
valve
Aortic valve
Pulmonary valve
Cardiac
skeleton
Anterior
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35. (left atrioventricular) valve
Figure 18.6b Heart valves.
Pulmonary valve
Aortic valve
Area of cutaway
Mitral valve
Tricuspid valve
Myocardium
Mitral
(left atrioventricular)
valve
Tricuspid
(right atrioventricular)
valve
Aortic valve
Pulmonary valve
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36. Chordae tendineae attached to tricuspid valve flap Papillary muscle
Figure 18.6c Heart valves.
Pulmonary valve
Aortic valve
Area of cutaway
Mitral valve
Tricuspid valve
Chordae tendineae attached
to tricuspid valve flap
Papillary
muscle
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37. Pulmonary valve Aortic valve Area of cutaway Mitral valve
Figure 18.6d Heart valves.
Pulmonary valve
Aortic valve
Area of cutaway
Mitral valve
Tricuspid valve
Opening of inferior
vena cava
Mitral valve
Chordae
tendineae
Tricuspid valve
Myocardium
of right
ventricle
Interventricular
septum
Papillary
muscles
Myocardium
of left ventricle
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38. Homeostatic Imbalance
Two conditions severely weaken heart:
Incompetent valve
Blood backflows so heart repumps same blood over and over
Valvular stenosis
Stiff flaps – constrict opening  heart must exert more force to pump blood
Valve replaced with mechanical, animal, or cadaver valve
© 2013 Pearson Education, Inc.

39. Pathway of Blood Through the Heart
Pulmonary circuit
Right atrium  tricuspid valve  right ventricle
Right ventricle  pulmonary semilunar valve  pulmonary trunk  pulmonary arteries  lungs
Lungs  pulmonary veins  left atrium
© 2013 Pearson Education, Inc.

40. Pathway of Blood Through the Heart
Systemic circuit
Left atrium  mitral valve  left ventricle
Left ventricle  aortic semilunar valve  aorta
Aorta  systemic circulation

41. Superior vena cava (SVC) Inferior vena cava (IVC)
Slide 1
Both sides of the heart pump at the same time, but let’s follow one spurt of blood all the way through the system.
Oxygen-poor blood
Oxygen-rich blood
Pulmonary
Semilunar
valve
Tricuspid
valve
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Right
atrium
Right
ventricle
Pulmonary
trunk
Pulmonary
arteries
SVC
Tricuspid
valve
Coronary
sinus
Pulmonary
trunk
Right
atrium
Pulmonary
semilunar
valve
Right
ventricle
IVC
Oxygen-poor blood is carried
in two pulmonary arteries to
the lungs (pulmonary circuit)
to be oxygenated.
Oxygen-poor blood returns from the body tissues back to the heart.
To heart
To lungs
Systemic
capillaries
Pulmonary
capillaries
Oxygen-rich blood is delivered to the body tissues (systemic circuit).
Oxygen-rich blood returns to the heart via the four pulmonary veins.
To body
To heart
Aorta
Pulmonary
veins
Aortic
semilunar
valve
Mitral
valve
Left
atrium
Left
ventricle
Aortic
Semilunar
valve
Mitral
valve
Four
pulmonary
veins
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Left
ventricle
Left
atrium
Aorta

42. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 2
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Oxygen-poor blood
Oxygen-rich blood
SVC
Coronary
sinus
IVC
© 2013 Pearson Education, Inc. 42

43. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 3
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Oxygen-poor blood
Right
atrium
Oxygen-rich blood
SVC
Coronary
sinus
Right
atrium
IVC
© 2013 Pearson Education, Inc. 43

44. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 4
Tricuspid
valve
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Right
atrium
Right
ventricle
Oxygen-poor blood
Oxygen-rich blood
SVC
Tricuspid
valve
Coronary
sinus
Right
atrium
Right
ventricle
IVC
© 2013 Pearson Education, Inc. 44

45. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 5
Pulmonary
Semilunar
valve
Tricuspid
valve
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Right
atrium
Right
ventricle
Pulmonary
trunk
Oxygen-poor blood
Oxygen-rich blood
Pulmonary
arteries
SVC
Coronary
sinus
Tricuspid
valve
Pulmonary
trunk
Right
atrium
Pulmonary
semilunar
valve
Right
ventricle
IVC
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46. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 6
Oxygen-poor blood
Pulmonary
Semilunar
valve
Oxygen-rich blood
Tricuspid
valve
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Right
atrium
Right
ventricle
Pulmonary
trunk
Pulmonary
arteries
SVC
Coronary
sinus
Tricuspid
valve
Pulmonary
trunk
Right
atrium
Pulmonary
semilunar
valve
Right
ventricle
IVC
Oxygen-poor blood is carried
in two pulmonary arteries to the lungs (pulmonary circuit)
to be oxygenated.
To lungs
Pulmonary
capillaries
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47. Pulmonary veins Four pulmonary veins Oxygen-poor blood
Slide 7
Oxygen-poor blood
Pulmonary
veins
Oxygen-rich blood
Four
pulmonary
veins
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48. Blood Flow Through the Heart
Figure The heart is a double pump, each side supplying its own circuit.
Oxygen-poor blood
Slide 8
Blood Flow Through the Heart
Oxygen-rich blood
Pulmonary
veins
Right
ventricle
Left
atrium
Four
pulmonary
veins
Left
atrium
© 2013 Pearson Education, Inc. 48

49. Oxygen-rich blood Mitral valve
Figure The heart is a double pump, each side supplying its own circuit.
Slide 9
Oxygen-poor blood
Oxygen-rich blood
Pulmonary
veins
Left
atrium
Mitral
valve
Left
ventricle
Mitral
valve
Four
pulmonary
veins
Left
ventricle
Left
atrium
© 2013 Pearson Education, Inc. 49

50. Oxygen-rich blood Aortic Semilunar valve Mitral valve
Figure The heart is a double pump, each side supplying its own circuit.
Slide 10
Oxygen-poor blood
Oxygen-rich blood
Right
ventricle
Aorta
Pulmonary
veins
Aortic
semilunar
valve
Left
atrium
Mitral
valve
Left
ventricle
Aortic
Semilunar
valve
Mitral
valve
Four
pulmonary
veins
Left
ventricle
Left
atrium
Aorta
© 2013 Pearson Education, Inc. 50

51. Blood Flow Through the Heart
Figure The heart is a double pump, each side supplying its own circuit.
Slide 11
Blood Flow Through the Heart
Oxygen-poor blood
Oxygen-rich blood
Systemic
capillaries
Oxygen-rich blood is delivered to the body tissues (systemic circuit).
To body
Aorta
Pulmonary
veins
Aortic
semilunar
valve
Left
atrium
Mitral
valve
Left
ventricle
Aortic
Semilunar
valve
Mitral
valve
Four
pulmonary
veins
Left
ventricle
Left
atrium
Aorta
© 2013 Pearson Education, Inc. 51

52. Superior vena cava (SVC) Inferior vena cava (IVC)
Figure The heart is a double pump, each side supplying its own circuit.
Slide 12
Both sides of the heart pump at the same time, but let’s follow one spurt of blood all the way through the system.
Oxygen-poor blood
Oxygen-rich blood
Pulmonary
Semilunar
valve
Tricuspid
valve
Superior vena cava (SVC)
Inferior vena cava (IVC)
Coronary sinus
Right
atrium
Right
ventricle
Pulmonary
trunk
Pulmonary
arteries
SVC
Tricuspid
valve
Coronary
sinus
Pulmonary
trunk
Right
atrium
Pulmonary
semilunar
valve
Right
ventricle
IVC
Oxygen-poor blood is carried
in two pulmonary arteries to
the lungs (pulmonary circuit)
to be oxygenated.
Oxygen-poor blood returns from the body tissues back to the heart.
To heart
To lungs
Systemic
capillaries
Pulmonary
capillaries
Oxygen-rich blood is delivered to the body tissues (systemic circuit).
Oxygen-rich blood returns to the heart via the four pulmonary veins.
To body
To heart
Aorta
Pulmonary
veins
Aortic
semilunar
valve
Mitral
valve
Left
atrium
Left
ventricle
Aortic
Semilunar
valve
Mitral
valve
Four
pulmonary
veins
© 2013 Pearson Education, Inc.
Left
ventricle
Left
atrium
Aorta 52

53. Pathway of Blood Through the Heart
Equal volumes of blood pumped to pulmonary and systemic circuits
Pulmonary circuit short, low-pressure circulation
Systemic circuit long, high-friction circulation
Anatomy of ventricles reflects differences
Left ventricle walls 3X thicker than right
Pumps with greater pressure
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54. Left Right ventricle Interventricular septum
Figure Anatomical differences between the right and left ventricles.
Right
ventricle
Interventricular
septum
Left
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55. Coronary Circulation Functional blood supply to heart muscle itself
Delivered when heart relaxed
Left ventricle receives most blood supply
Arterial supply varies among individuals
Contains many anastomoses (junctions)
Provide additional routes for blood delivery
Cannot compensate for coronary artery occlusion
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56. Coronary Circulation: Arteries
Arteries arise from base of aorta
Left coronary artery branches  anterior interventricular artery and circumflex artery
Supplies interventricular septum, anterior ventricular walls, left atrium, and posterior wall of left ventricle
Right coronary artery branches  right marginal artery and posterior interventricular artery
Supplies right atrium and most of right ventricle
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57. The major coronary arteries
Aorta
Superior
vena cava
Anastomosis
(junction of
vessels)
Right
atrium
coronary
artery
ventricle
marginal
Posterior
interventricular
Anterior
Left
Circumflex
Left atrium
Pulmonary
trunk
The major coronary arteries
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58. Coronary Circulation: Veins
Cardiac veins collect blood from capillary beds
Coronary sinus empties into right atrium; formed by merging cardiac veins
Great cardiac vein of anterior interventricular sulcus
Middle cardiac vein in posterior interventricular sulcus
Small cardiac vein from inferior margin
Several anterior cardiac veins empty directly into right atrium anteriorly
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59. The major cardiac veins
Superior
vena cava
Anterior
cardiac
veins
Small
cardiac vein
Middle cardiac vein
Coronary
sinus
Great
vein
The major cardiac veins
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60. Posterior surface view
Aorta
Superior vena cava
Right pulmonary artery
Left pulmonary artery
Right pulmonary veins
Left pulmonary veins
Auricle of left atrium
Right atrium
Left atrium
Inferior vena cava
Great cardiac vein
Coronary sinus
Right coronary artery
(in coronary sulcus)
Posterior vein of
left ventricle
Posterior interventricular
artery (in posterior
interventricular sulcus)
Left ventricle
Middle cardiac vein
Right ventricle
Apex
Posterior surface view
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61. Homeostatic Imbalances
Angina pectoris
Thoracic pain caused by fleeting deficiency in blood delivery to myocardium
Cells weakened
Myocardial infarction (heart attack)
Prolonged coronary blockage
Areas of cell death repaired with noncontractile scar tissue
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62. Figure 18.12a Microscopic anatomy of cardiac muscle.
Intercalated
discs
Cardiac
muscle cell
Nucleus
Gap junctions
Desmosomes
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63. Microscopic Anatomy of Cardiac Muscle
Intercalated discs - junctions between cells - anchor cardiac cells
Desmosomes prevent cells from separating during contraction
Gap junctions allow ions to pass from cell to cell; electrically couple adjacent cells
Allows heart to be functional syncytium
Behaves as single coordinated unit
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64. Figure 18.12b Microscopic anatomy of cardiac muscle.
cell
Mitochondrion
Nucleus
Intercalated
disc
Mitochondrion
T tubule
Sarcoplasmic
reticulum
Z disc
Nucleus
Sarcolemma
I band
A band
I band
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