EXAM 2 - The Heart, Lymphatic and Immune System

Question 1

cardiac output

Answer 1

heart rate x stroke volume

Question 2

blood pressure

Answer 2

cardiac output x peripheral resistance

Question 3

cardiodynamic autonomic control: sympathetic

Answer 3

nerve from cardioacceleratory center (medulla) synapses in spinal cord

preganglionic axons release Ach onto ganglia

postganglionic axons synapse on SA node, AV node, and left ventricle and release NE

NE activates B1-adrenergic receptors coupled to Gsa GPCR

Gsa increases cAMP production and increases HR

Question 4

where do the sympathetic postganglionic axons synapse on?

Answer 4

SA node, AV node, left ventricle

Question 5

sympathetic synapse on heart

Answer 5

increase cAMP, increase HR

Question 6

NE binding to Gsa

Answer 6

adenylate cyclase –> cAMP –> to PKA and HCN channels

Question 7

effects of PKA

Answer 7

activates troponin

inactivates phospholamban

activates ryanodine receptors

activates L-type Ca2+ channels

Question 8

effect of increasing troponin

Answer 8

increases contractile strength

Question 9

effect of binding to HCN

Answer 9

increases heart rate

Question 10

effect of decreasing phospholamban

Answer 10

phospholamban typically inactivates SERCA – by disinhibiting SERCA, Ca2+ gets pumped into SR quicker allowing for quicker repolarization –> quicker cardiac myocyte AP

Question 11

effect of activating RyR

Answer 11

increases contractility due to Ca2+ eflux

Question 12

effect of L-type Ca2+ activation

Answer 12

more depolarized plateau phase to permit contraction

Question 13

hydrostatic pressure near heart in arteries

Answer 13

high; 80-120 mmHg

Question 14

hydrostatic pressure in capillaries

Answer 14

low (15-25)

Question 15

hydrostatic pressure in veins

Answer 15

0-20

Question 16

parallel circulatory systems

Answer 16

pulmonary circulation
systemic circulation

two pumps for two loops

Question 17

coronary arteries

Answer 17

arise from coronary sinus in aorta and delivers oxygenated blood to cardiac muscle tissue itself

Question 18

cardiac veins

Answer 18

drain into coronary sinus and opens into right atrium

Question 19

arteries and arteriole functions

Answer 19

distribution

Question 20

arteries and arteriole constraints

Answer 20

distribution vessels must be able to handle pressure during contraction and store pressure during diastole

Question 21

capillary function

Answer 21

exchange

Question 22

capillary constraints

Answer 22

exchange vessels must permit bidirectional flow of substances

Question 23

vein functions

Answer 23

collection

Question 24

vein constraints

Answer 24

collection vessels must be able to deal with low pressure upon returning to the heart

Question 25

path of circulation

Answer 25

arteries carry blood away from heart

branch into arterioles

branch into capillaries

capillaries do exchange

later rejoin into venules

venules deposit into veins

Question 26

which vessels do not have elastic fibers

Answer 26

veins, capillaries

Question 27

which vessels do not have smooth muscle

Answer 27

capillaries, veins

Question 28

which vessel has the greatest wall thickness

Answer 28

aorta, artery

Question 29

which vessel has the thinnest thickness?

Answer 29

vein,,capillary (smallest is venule)

Question 30

arteries

Answer 30

hold 13%

elastic
muscular
arterioles

Question 31

elastic arteries

Answer 31

conducting

buffer changes in pressure

Question 32

muscular arteries

Answer 32

distributing

most common

Question 33

arterioles

Answer 33

resistance
small diameter
no externa
can affect BP

Question 34

veins

Answer 34

hold 64%; volume reservoir

venules
medium diamater
large

Question 35

venules

Answer 35

collect blood from capillary to deposit into veins

no media

Question 36

medium diameter veins

Answer 36

return blood
expand easily (high compliance)
valves

Question 37

large veins

Answer 37

return blood back to the heart

thin 3 layers

Question 38

capillaries

Answer 38

hold 9%
microcirculation

large SA

continuous
fenestrated
sinusoid

Question 39

thoroughfare channels

Answer 39

provide direct flow b/w arterioles and venules (capillary)

Question 40

metarterioles

Answer 40

precap sphincters to regulate blood flow

Question 41

arteriovenous anastomaoes

Answer 41

alternative blood pathway

Question 42

continuous capillaries

Answer 42

exchange of small molecules in most tissues

Question 43

fenestrated capillaries

Answer 43

fenestrations in endothelium that allow peptide exchange

hypothalamus, kidney, intestine, pituitary

Question 44

sinusoid capillaries

Answer 44

allow exchange of large proteins

larger diameter, large sinuses

liver, bone marrow, spleen

Question 45

B1 AR

Answer 45

NE binds to this, adenylate cyclase, cAMP PKA etc etc etc

Question 46

B2 AR

Answer 46

epi binds to this, increases cAMP and inhibits MLC in smooth muscle

Question 47

M3 cholinergic

Answer 47

Ach binds to this and decreases cAMP to relax smooth muscle

Question 48

A1 AR

Answer 48

gq coupled; NE binds to this and increases IP3 for more contraction in smooth muscle

also binds:
angiotensin
endothelin
thromboxane

Question 49

NO smooth muscle

Answer 49

endothelial gets NO from blood flow, it diffuses into smooth muscle

guanylate cyclase to cGMP to PKG

• inhibit IP3 (dilation)
• stimulate MLC phosphatase; decreases MLC (dilation)
• stimulates K+ channel; ends contraction
• inhibits L-type Ca2+; decreases contraction
• stimulates pump to get rid of Ca2+

Question 50

compliance

Answer 50

how easily a heart chamber or blood vessel expands when filled with blood (pressure)

Question 51

veins

Answer 51

high compliance

low elasticity

Question 52

arteries

Answer 52

low compliance

high elasticity

Question 53

LARGE volume change but small pressure change

Answer 53

veins

Question 54

LARGE pressure change but small volume change

Answer 54

artery

Question 55

venous blood reserve

Answer 55

central reflexes can decrease compliance of veins to supply more blood to the arterial circulation as needed

Question 56

structures for venous circulation

Answer 56

skeletal pump
valves
respiratory pump

Question 57

skeletal pump

Answer 57

veins pass through here and when muscles contract they press on veins and blood moves

Question 58

respiratory pump

Answer 58

drop in pressure in chest cavity during inhalation reduces pressure on the veins and allows blood to flow back up to the heart

Question 59

flow =

Answer 59

(change in) pressure / resistance

Question 60

change in pressure =

Answer 60

P artery - P venous

Question 61

systemic circulatory pressure > total peripheral resistance

Answer 61

flow

Question 62

why is the flow in the capillaries not zero?

Answer 62

the systemic circulatory pressure is greater than the total peripheral resistance

Question 63

resistance is proportional to

Answer 63

length
viscosity
turbulence

Question 64

resistance is inversely proportional to

Answer 64

radius

Question 65

vascular networks

Answer 65

parallel vessel circuits

vessel series

Question 66

parallel vessel circuits

Answer 66

lower resistance (capillaries)

Question 67

vessel series

Answer 67

high resistance

Question 68

flow =

Answer 68

velocity x area

Question 69

if flow is constatn

Answer 69

velocity = 1/area

Question 70

poisseuille’s law

Answer 70

predicts blood flow rate in a vessel

viscosity and length dictate this

Question 71

filtration

Answer 71

removal of solutes from blood to deliver to tissues

Question 72

driivng force of filtration

Answer 72

hydrostatic pressure forces fluid OUT of the capillaries

Question 73

reabsorption

Answer 73

wastes and water into capillaries

Question 74

driving force of reabsorption

Answer 74

oncotic pressure brings fluid BACK into the capillaries

Question 75

net filtration pressure =

Answer 75

net hydrostatic pressure (NHP) - net colloid oncotic pressure (NCOP)

Question 76

sigma for NFP

Answer 76

adjustment for pressure; reflection coefficient

1 < s < 0

high: low protein permeability, concentration is important
low: high permeability, more even and less important

Question 77

filtration > reabsorption

Answer 77

net leakage of fluid

Question 78

Kf

Answer 78

filtration rate

Question 79

high Kf

Answer 79

high water permeability

Question 80

low Kf

Answer 80

low water permeability

Question 81

lymphoid tissues

Answer 81

nodules, tonsils, adenoids, MALT

Question 82

tonsils

Answer 82

germinal centers for B cell proliferation

Question 83

lymph organs

Answer 83

nodes, thymus, spleen ; immune function site

Question 84

first line of defense

Answer 84

prevention of infection

Question 85

second line of defense

Answer 85

targeted destruction of pathogens

Question 86

third line of defense

Answer 86

specific targeting of pathogens (immunomemory)

Question 87

bacteria protists parasites fungi

Answer 87

living cells with biochem machinery needed

Question 88

control points nonspecific defenses

Answer 88

point of entry
disruption of life cycle
interfere w toxins

Question 89

point of entry control point

Answer 89

block receptor binding

Question 90

disruption of life cycle control point

Answer 90

slow growth of pathogen until immune system can destroy it

Question 91

interfere w toxins

Answer 91

block toxin release

Question 92

physical / chemical barriers

Answer 92

1st

skin and linings

protective chemicals (acidity, lysozyme, antimicrobial peptides)

mucous membranes (traps particles and organisms, transports)

Question 93

phagocytes

Answer 93

2nd

microphages: neutrophils, eosinophils

macrophages

Question 94

macrophages

Answer 94

monocytes (bone marrow and blood)

langerhaans cells (skin and mucosa)

osteoclasts (bone)

microglia (CNS)

red pulp (spleen)

Question 95

immunological surveillance

Answer 95

2nd

monitor cells for abnormal markers (AB and complement proteins)

attack and kill abnormal cells (pathogens and self cells w bad marker)

Question 96

interferons

Answer 96

2nd

small proteins released in response to viral infection

Question 97

complement system

Answer 97

2nd

3 pathways for protease cleavage but end at MAC

Question 98

MAC

Answer 98

pokes holes in membranes to kill pathogens

Question 99

inflammatory response

Answer 99

2nd

increased flow of plasma and leukocytes to tissue

elevated phagocytosis, activated hemostasis, activation of complement, response termination

Question 100

fever / pyrogenesis

Answer 100

pathogen inactivation

elevate body temp

increased leukocyte movability, increased phagocytosis, increased T cell proliferation, increased interferon activity, DECREASE endotoxins

can damage cell

Question 101

naturally acquired passive immunity

Answer 101

transfer of maternal antibodies across placenta

Question 102

induced passive immunity

Answer 102

administration of AB to combat infection (booster shot)

Question 103

induced active immunmity

Answer 103

develops after admin of antigen to prevent disease (vaccines)

Question 104

naturally acquired active immunity

Answer 104

develops after exposure to antigens in environment

Question 105

humoral response

Answer 105

B cells + MHCII + CD4 on Th

neutralization
agglutination
opsinization

Question 106

cell mediated response

Answer 106

Tc regulate and kill infected cells + nucleated cells + MCH1 + CD8

Question 107

BCR

Answer 107

Fab and Fc portion can be secreted as AB

Question 108

TCR

Answer 108

alpha and beta chains never secreted; CD3

Question 109

somatic recombination

Answer 109

in bone marrow when making WBC

germline DNA – SR – DJ rearranged – SR – VJ and VDJ joined – transcription

Question 110

IgM

Answer 110

all areas in response to infection

secreted as pentamer

Question 111

IgA

Answer 111

mucosa linings, dimer, fight off microbes in body secretions

Question 112

IgG3

Answer 112

blood plasma placenta to fetus

signals macrophage in infection

Question 113

IgD

Answer 113

least prevalent

Question 114

IgE

Answer 114

epithelia, mast cells histamine, inflammation

Question 115

primary diversification (during development)

Answer 115

somatic recombination
junctional diversity
combinatorial diversity

Question 116

junctional diversity

Answer 116

VDJ and VJ shuffling: nucleotides randomly insert

Question 117

combinatorial diversity

Answer 117

different heavy and light chains can pair

Question 118

secondary diversification (after activation, B cells)

Answer 118

somatic hypermutation

isotype switching

Question 119

somatic hypermutation

Answer 119

selects for AB that binds tighter to pathogen

Question 120

isotype switching

Answer 120

constant region switch

Question 121

MCH1

Answer 121

1 bound domain, short

Question 122

MCHII

Answer 122

2 domains, medium

Question 123

anergic

Answer 123

no response need antigen and sitmulatory proteins