unit 9

Question 1

what kinds of cells make up cardiac muscle? what is their function?

Answer 1

cardiomyocytes
contraction for propelling blood

Question 2

what is the fibrous skeleton

Answer 2

4 fibrous rings of valve orifices, 2 fibrous trigones, membranous CT portion of heart septa that acts as an electrical insulator

Question 3

what does the fibrous skeleton do?

Answer 3

ensures blood movement is as efficient as possible

Question 4

what cells make up the cardiac conducting system? what do they do?

Answer 4

modified cardiomyocytes
imitate and propagate myocardial depolarization

Question 5

what is the function of intercalated discs?

Answer 5

increases SA between adjacent cells for communication
ensures cells don’t pull apart due to anchoring

Question 6

what is the transverse component of intercalated discs?

Answer 6

fascia adherens and maculae adherens
bind cytoskeletal components of adjacent cells to ensure they stay together

Question 7

what is the lateral component of intercalated discs?

Answer 7

gap junctions and maculae adherens

Question 8

what do fascia adherens do?

Answer 8

couple actin cytoskeleton to plasma membrane

Question 9

what do macula adherens do?

Answer 9

couples intermediate cytoskeleton filaments to plasma membrane

Question 10

what do gap junctions do?

Answer 10

communication conduit for adjacent cells

Question 11

steps for cardiac muscle excitation and contraction

Answer 11

Question 12

what are the layers of the heart wall from external to internal?

Answer 12

epicardium
myocardium
endocardium

Question 13

parts of the epicardium and what they contain

Answer 13

visceral layer of serous pericardium (mesothelium - simple squamous cells)
sub epithelial layer (loose CT and adipose) - contains coronary vessels/nerves

Question 14

what is myocardium composed of? what does it due?

Answer 14

cardiomyocytes arranged in complex spiral
results in efficient chamber emptying

Question 15

myocardium facts

Answer 15

thinner in atria compared to ventricles
thinner in RV compared to LV
thickest of the 3 layers

Question 16

endocardium layers and what it contains

Answer 16

subendocardial layer (contains heart conduction system, continuous with CT of myocardium)
sub endothelial layer (dense CT)
endothelium (simple squamous cells)

Question 17

what do valvular interstitial cells do?

Answer 17

maintain baseline levels of ECM ground substance and protein fiber
(have an endothelial origin so they resemble fibroblasts)

Question 18

atrioventricular valve layers

Answer 18

atrialis (atrial side)
spongiosa
fibrosa
ventricularis

Question 19

what is atrialis layer?

Answer 19

endothelium and dense CT deep to this
continuation of the atrial endocardium

Question 20

what is spongiosa? what does it do?

Answer 20

loose CT, prominent at leaflet edge
seals gaps where leaflets meet and absorbs shock of valve vibration

Question 21

what is fibrosa?

Answer 21

dense CT that is largely collagen
fibrosa is an extension from annulus fibrosus

in AV valves, collagen of chordae tendineae interfaces w/ dense CT collagen

Question 22

what is ventricularis

Answer 22

endothelium and dense CT
minimal contribution from ventricular endocardium

Question 23

semilunar valve layers

Answer 23

ventricularis
spongiosa
fibrosa
arterialis

Question 24

what is arterialis

Answer 24

endothelium and loose CT
continuation, minimal contribution, from tunica intima

Question 25

what make up SA and AV nodes?

Answer 25

pacemaker and transitional cells (are supportive cells)

Question 26

pacemaker and transitional cell characteristics

Answer 26

smaller than atrial cardiomyocytes, limited myofibrils and lack intercalated discs
still contain gap junctions!

Question 27

AV bundle characteristics

Answer 27

smaller proximally, enlarge distally

Question 28

purkinje cell characteristics

Answer 28

larger than cardiomyocytes
limited myofibrils and intercalated discs

Question 29

what is valvular heart disease?

Answer 29

degeneration of heart valves
transition of activated valvular interstitial cells to myofibroblast-like cells
leads to disruption of ground substance levels and protein fibers –> stenosis and regurgitation

Question 30

what is a myocardial infarction?

Answer 30

cardiac ischemia of oxygen starved tissue
potentially leads to –> replacement of cardiomyocytes with dense CT and deficiency in conduction, contraction, chamber emptying

Question 31

what are the parts of the microvascular bed?

Answer 31

arterioles
blood capillaries
lymphatic capillaries
venules

Question 32

what is vasculogenesis? what drives the process?

Answer 32

formation of primitive blood vessel networks, “blood islands,” and primary capillary plexus
VEGF/R (vascular endothelial growth factor/receptor) family

Question 33

when does adult vasculogenesis occur?

Answer 33

wound healing and neoplasm

Question 34

what is angiogenesis? what drives the process?

Answer 34

formation of branches from existing vessels
VEGF/R and angiopoietin-1/R

Question 35

what is vascular wall maturation?

Answer 35

completion of endothelial tunica (intima), muscular tunica (media), and CT tunica (adventitia)

Question 36

what drives vascular wall maturation?

Answer 36

angiopoietin-1/R (intima)
platelet-derived growth factor (PDGF/R) and myocardin/R (media)
fibroblast growth factor (FGF) (adventitia)

Question 37

what are the layers of the vascular wall from external to internal?

Answer 37

tunica adventitia
tunica media
tunica intima

Question 38

what is the most robust layer in veins?

Answer 38

tunica adventitia

Question 39

what is the most robust layer in arteries?

Answer 39

tunica media

Question 40

what is tunica intima made of

Answer 40

internal elastic membrane (interfaces with tunica media)
subendothelial CT
endothelium

Question 41

what is contained within tunica adventitia

Answer 41

collagen fibers, elastic fibers, nervi vasorum, vasa vasorum

Question 42

what are the functions of endothelium in blood vessels

Answer 42

maintain selective permeability (tight junctions)
maintain non-thrombogenic barrier (anticoagulants)
regulate immune response (lymphocyte interaction)
modulate blood flow (vasodilation and constriction)

Question 43

visceral (single-unit) smooth muscle

Answer 43

in walls of vasculature and hollow organs
only some cells receive direct neuronal input, gap junctions spread contraction signal to neighboring fibers

Question 44

multiunit smooth muscle

Answer 44

in large arteries, bronchioles, arrestor pilli muscle, iris of eye
each cell receives neuronal input and acts independently
few gap junctions

Question 45

smooth muscle excitation and contraction

Answer 45

Question 46

different artery sizes

Answer 46

large/elastic - convey blood to systemic and pulmonary circulations
medium/muscular - “named”
small/arterioles - 8-10 SM layers/1-2 SM layers

Question 47

different vein sizes

Answer 47

venules/small - 1-2 SM layers/2-3 SM layers
medium - “named”
large - receive blood from systemic and pulmonary circulations

Question 48

large elastic vessels

Answer 48

Question 49

medium muscular vessels

Answer 49

Question 50

small vessels/arterioles/venules

Answer 50

Question 51

what are capillaries? what are they made of?

Answer 51

vascular network that allows for fluid exchange of gases, metabolites, and waste products
single endothelial layer & basal lamina

Question 52

what are the types of capillary morphology?

Answer 52

continuous, fenestrated, discontinuous/sinusoidal

Question 53

which capillary type(s) has an uninterrupted endothelium?

Answer 53

continuous capillary

Question 54

which capillary type(s) has a continuous basal lamina?

Answer 54

continuous and fenestrated

Question 55

what promotes movement across the capillary vessel wall?

Answer 55

ratio of capillary volume to endothelial cell surface area and thickness

Question 56

what are lymphatic capillaries similar to morphologically?

Answer 56

fenestrated capillaries

Question 57

what are lymphatic vessels similar to morphologically?

Answer 57

small vein with less distinct layering

Question 58

what are lymphatic ducts similar to morphologically?

Answer 58

medium vein with less distinct layering

Question 59

what is atherosclerosis?

Answer 59

lesions primarily developing in the tunica intima leading to endothelial dysfunction
macrophages become foam cells
formation of a fatty LDL streak leads to fibrofatty plaque formation