Heart (histo)

Question 0

Describe systemic circulation

Answer 0

Oxygenated blood leaves the heart to other tissues via arteries; Nutrient exchange occurs at the capillaries; Deoxygenated blood returns to the heart via veins

Question 1

Describe the pulmonary circulation

Answer 1

Deoxygenated blood is pumped from the heart to the lungs via the pulmonary artery; oxygenated blood is pumped from the lungs to the heart via the pulmonary veins

Question 2

Describe the Tunica Intima; what type of cells does it have?

Answer 2

It’s the innermost layer of the blood vessel; it contains a SINGLE layer of squamous epithelial cells (endothelium)

Question 3

Describe the Tunica Media; what type of cells does it contain?

Answer 3

It is the middle layer of the blood vessel wall;
Depending on the vessel type: either circumferentially arranged smooth muscle cells or elastic lamellae; Smooth muscle cells produce the extracellular molecules of the t.media

Question 4

Describe the tunica adventitia; what type of cells does it contain?

Answer 4

Outermost connective tissue; it consists of longitudinally arranged collagen and elastic fibers, smooth muscle cells and fibroblasts;
It may contain vasa vasorum and nervi vascularis

Question 5

Where is the heart located? what surround it?

Answer 5

heart is located in the middle mediastinum and is surrounded by the pericardial sac

Question 6

What are the layers of the pericardial sac?

Answer 6

1. fibrous pericardium (external fibrous layer)

2. serous pericardium (parietal + visceral layers)

Question 7

Describe the fibrous pericardium layer of the pericardial sac: what type of tissue is it made up of?

Answer 7

a dense fibroelastic CT that blends in with surrounding loose CT

Question 8

Describe the parietal layer of the serous pericardium (of the pericardial sac): what type of tissue is it made up of? where is it located?

Answer 8

loose CT + layer of squamous epithelium (mesothelium); located between the fibrous layer and visceral layer of the pericardium

Question 9

Describe the Visceral layer of the serous pericardium: what type of tissue is it made up of? where is it located?

Answer 9

made of loose CT + layer of squamous epithelium (mesothelium); located directly adjacent to the heart muscle layer;

called “epicardium”

Question 10

where do the parietal and visceral layers of the serous pericardium meet?

Answer 10

at the reflexion at the base of the heart, forming a sac

Question 11

where is the paricardial cavity located?

Answer 11

between the parietal and visceral layers of the serous pericardium

Question 12

is the pericardial cavity an actual or potential space?

Answer 12

potential space

Question 13

what is the function of the thin film of fluid found in the pericardial cavity?

Answer 13

to help lubricate the heart and to prevent friction during beating

Question 14

what is pericarditis? what does it cause? what can it result in?

Answer 14

it is an inflammation of the pericardium that can cause friction between the layers and restrict beating of the heart;

it can result in pericardial effusion

Question 15

what is pericardial effusion?

Answer 15

an abnormal collection of fluid in the pericardial cavity that interferes with the normal heart contraction and decreases the ability of the heart to effectively pump blood

Question 16

Describe the path of blood flow in the heart (starting with systemic venous return)

Answer 16

1. Deoxygenated blood returns from the body tissue via the IVC and SVC and enters the right atrium
2. Deoxy blood passes through the tricuspid (right AV) valve from the right atrium to the right ventricle
3. Deoxy blood pumped through the pulmonary semilunar valve to the pulmonary artery to the lungs for oxygenation
4. Oxy blood leaves the lungs via the pulmonary veins and enter the left atrium
5. oxy blood passes through the mitral (bicuspid, left AV) valve to the left ventricle
6. Oxy blood pumped through the aortic semilunar valve to the aorta and aortic tree for systemic circulation via the arteries
7. nutrient exchange occurs at the capillaries and then deoxy blood returned via veins and cycle repeats

Question 17

what separates the atria?

Answer 17

intratrial septum

Question 18

what separates the ventricles?

Answer 18

intraventricular septum

Question 19

what separates the two atria and ventricles?

Answer 19

cardiac skeleton

Question 20

What is the cardia skeleton? what type of tissue is it made of?

Answer 20

it is the central supporting structure of the heart to which some of the cardiac muscle fibers are attached and with which the valves are supported;

composed of dense Irregular CT

Question 21

What is the function of the annuli fibrosi?

Answer 21

surrounds each of the four cardiac valves to stabilize them; the core of the valve cusps (leaflets) arise from the CT

Question 22

what is the function of the Trigona fibrosi? what are they made of?

Answer 22

triangular islands of CT that serve to strengthen the annuli fibrosi

Question 23

what is the Septum Membranaceum?

Answer 23

an extension of the cardiac skeleton into the interventricular septum

Question 24

What are the functions of the cardiac skeleton?

Answer 24

1. Separates the atrial musculature from the ventricular musculature
2. Functions as sites of origin (points of insertion) of cardiac muscle
3. Localizes and stabilizes valves
4. Limits the diameter of valves
5. Prevents spread of electrical impulses except via the conducting system

Question 25

what are the 3 layers of the heart wall?

Answer 25

1. epicardium (visceral pericardium)
2. myocardium
3. endocardium

Question 26

Which layer of the heart wall is the external layer?

Answer 26

epicardium

Question 27

what layer of the blood vessel is the epicardium analogous to?

Answer 27

tunica adventitia

Question 28

what type of tissue/cells does the epicardium contain?

Answer 28

1. a layer of simple squamous epithelium called mesothelium with its associated basal lamina
2. CT = subepicardium: fat, collagen fibers, elastic fibers, arteries, veins, and nerves
3. epicardium is the region where fat is stored in the heart; the coronary artery, cardiac veins and nerves that supply the heart are located in the CT and typically surrounded by fat

Question 29

what is the middle layer of the heart wall? what does it contain?

Answer 29

myocardium; contains the cardiac muscle cells

Question 30

what layer of the blood vessels is the myocardium analogous to?

Answer 30

tunica media

Question 31

Describe cardiac muscle cells

Answer 31

one or two nuclei, packed with myofibrils and large mitochondria and connect to each other via extensive intercalated discs

Question 32

what do intercalated discs consist of?

Answer 32

1. Fasica adherens
2. Desmosomes
3. Gap junctions

Question 33

What is the function of fascia adherens? how do they perform this function?

Answer 33

connect 2 cardia muscle cells via a junction binding to actin thin filaments in each cell

Question 34

what is the function of desmosomes? how do they perform their function?

Answer 34

connect two cells via desmin and vimentin intermediate filaments

Question 35

what are gap junctions?

Answer 35

provide for ionic communication and coupling

Question 36

How does the atrial myocardium differ from the ventricular myocardium?

Answer 36

atrial myocardium is thinner

Question 37

how is the myocardium of the left ventricle different from the myocardium of the right ventricle?

Answer 37

myocardium of the left ventricle is 3x thicker (has to pump blood to the entire body)

Question 38

How does the morphology of atrial myocardial cells compare to that of the ventricular myocardial cells?

Answer 38

atrial myocardial cells are smaller and have less elaborate t-tubule system; they have MORE gap junctions

Question 39

What is the relationship between atrial cardiac muscle cells and atrial natriuretic factor (ANF)

Answer 39

atrial cardiac muscle cells produce, store, and secrete ANF (a polypeptide)

Question 40

where is ANF stored?

Answer 40

in electron dense granules in the atrial cardiac muscle cells

Question 41

where is ANF released?

Answer 41

released into surrounding capillaries of the atrium

Question 42

where are receptors for ANF found?

Answer 42

cells in the adrenal cortex, kidney, and vascular smooth muscle

Question 43

what is the function of ANF?

Answer 43

stimulates the kidney to excrete sodium in the urine and functions in regulating fluid balance, electrolyte balance (sodium levels), and blood pressure

Question 44

Does ANF cause and increase or decrease in arterial blood pressure?

Answer 44

decrease

Question 45

How are the muscles arranged in the ventricular wall?

Answer 45

in a complex spiral and helical pattern (trabeculae carnea)

Question 46

what are papillary muscles?

Answer 46

fingerlike muscular projections from the ventricular wall into the lumen of the ventricle

Question 47

How are the muscles arranged in the atrial wall?

Answer 47

into pectinate musculature = innermost bundles of muscle fibers are arranged as a latticework that gives a ridged appearance

Question 48

what is the internal layer of the heart wall?

Answer 48

endocardium

Question 49

what does the endocardium line?

Answer 49

cardiac valves, papillary muscles, and the inner walls of the atria and ventricles

Question 50

what layer of the blood vessels is the endocardium analogous to?

Answer 50

tunica intima

Question 51

what type of tissue/cells makes up the endocardium?

Answer 51

1. endothelium (simple squamous epithelium) + basal lamina

2. CT: contains fibroblasts, collagen fibers, elastic fibers, some smooth muscles

Question 52

what is the deeper layer of the endocardium CT called? what does it connect to?

Answer 52

subendocardial layer; connects to the myocardium

Question 53

What is the function of the impulse conduction system of the heart

Answer 53

initiate and conduct electrochemical impulses resulting in the coordinated contraction and relaxation of the heart

Question 54

What controls the cardiac contraction?

Answer 54

autonomic nervous system; NOT stimuli of the nervous system

Question 55

What happens to the heart if it is: 1. simulated by sympathetic nerves? 2. stimulated by parasympathetic nerves?

Answer 55

sympathetic = accelerates heart rate
parasympathetic = slows heart rate

Question 56

where is the conduction impulse of the heart initated?

Answer 56

in the SA node

Question 57

Describe the conduction system of the heart (pathway)

Answer 57

1. impulse is initiated in the SA node (near the SVC in the right atrium)
2. impulse travels though the atrial muscle, resulting in atrial contraction
3. impulse conducted to the AV node via internodal fibers
4. impulse is delayed at the AV node to allow the ventricles to fill with blood
5. impulse passes quickly through Bundle of His, left and right bundle branches and then to the purkinje fibers
6. impulse is delivered to a subset of ventricular cardiac muscles that when stimulated conduct the impulse to other ventricular cardiac muscle cells via gap junctions (results in ventricular contraction)

Question 58

how fast is the impulse passed in the purkinje fibers?

Answer 58

4m/sec

Question 59

what does an electrocardiogram (ECG) record?

Answer 59

a voltage trace recording of the conduction of electrical contraction impulses through the heart

Question 60

where is the SA node located?

Answer 60

in the wall of the right atrium, close to the orifice of the SVC; often surrounds a branch of the coronary artery

Question 61

How do SA nodal cells compare to cardiac muscle cells in shape, myofibril content, staining, and intercalated discs?

Answer 61

shape: spindle shape and smaller than normal cardiac muscle cells
myofibrils: fewer in number and less organized than normal cardiac muscle cells
stain: paler that normal cardiac muscle cells
intercalated discs: less well developed than normal cardiac muscle cells

Question 62

what is considered the pacemaker of the heart?

Answer 62

SA node because it initiates the contraction of the heart

Question 63

where does the impulse that is initiated by the SA node spread along? to?

Answer 63

spreads along tracts of the modified cardiac muscle fibers (internodal fibers) to the AV node

Question 64

where is the AV node located?

Answer 64

in the floor of the right atrium just above the tricuspid valve

Question 65

Describe the morphology of the AV node

Answer 65

appears as a mass of small, pale-staining cells isolated by CT (similar to SA node appearance) : roughly spindle shaped and in some areas form a reticular meshwork, intercalated discs connect the cells but they are poorly developed

Question 66

where is the impulse delayed during the cardiac contraction cycle? why?

Answer 66

in the AV node to allow filling of the ventricles

Question 67

where does the impulse pass from the AV node?

Answer 67

to the bundle of his

Question 68

Where is the Bundle of His located?

Answer 68

Runs form the AV node in the right atrium into the interventricular septum by traversing the right fibrous trigone of the cardiac skeleton;
Runs along the margin of the septum membranaceum

Question 69

where does the Bundle of His divide into the left and right bundle branches?

Answer 69

in the interventricular septum

Question 70

How does the morphology of the cells in the Bundle of His compare to that of nodal cells?

Answer 70

larger, but have fewer myofibrils than typical cardiac muscle cells

Question 71

where do bundle branches (of the bundle of his) terminate?

Answer 71

in the CT between the endocardium and myocardium of the right and left ventricles as Purkinje fibers aka the SUBENDOCARDIUM

Question 72

where are purkinje fibers located?

Answer 72

in the subendocardial CT of ventricular endocardium

Question 73

what is the function of Purkinje Fibers

Answer 73

transmit impulses to a subset of ventricular cardiac muscle cells at the endocardium/myocardium interface

Question 74

How do purkinje fibers compare to normal cardiac cells

Answer 74

larger and more rounded cells and nuclei than normal cardiac cells

Question 75

How do Purkinje cells stain? why?

Answer 75

pale-staining and vaculoated because they have lots of GLYCOGEN

Question 76

Do purkinje fibers have myofibrils? T-tubule system? intercalated discs?

Answer 76

few myofibrils
NO T-Tubule system
connect via intercalated discs but not well developed

Question 77

what is the function of the cardiac valves?

Answer 77

to control the direction of blood flow through the heart

Question 78

Describe the valves of the hear

Answer 78

1. Left AV (mitral, bicuspid) = 2 cusp
2. Right AV (tricuspid) = 3 cusps
3. Pulmonary semilunar = 3 cusps
4. Aortic semilunar = 3 cusps

Question 79

Where do cardiac valves extend from?

Answer 79

the annuli fibrosi of the cardiac skeleton

Question 80

what type of tissue makes up the cardiac valves?

Answer 80

core of fibrous dense irregular connective tissue, the fibrosa continuous with annuli fibrosi

Question 81

Is the endocardium associated the valves? if yes, how?

Answer 81

endocardium covers the free atrial and ventricular surfaces of the valves

Question 82

How are the atrioventricular valves attached to the heart wall?

Answer 82

by chordae tendinae

Question 83

what are the chordae tenidnae

Answer 83

fibrous cords of dense irregular CT that extend from the free edges of the valves to papillary muscles and thus connect the AV valves to the heart wall

Question 84

what control the chordae teninae? what’s their function?

Answer 84

papillary muscle control the chordae tendinae

chordae tendinae function to prevent eversion of valve leaflefts.