Quiz 4

Question 1

simply what is an amphibian lung

Answer 1

simple sac with moderate surface area elaboration

Question 2

what kind of pressure inflation do reptile lungs have

Answer 2

positive pressure

Question 3

are amphibian or reptile lungs more complex

Answer 3

reptile are more complex

Question 4

what kind of pressure dynamic do most vertebrate lungs have

Answer 4

most vertebrate lungs have a negative pressure system

Question 5

what is a negative pressure dynamic

Answer 5

use bucal cavity to push air into lungs creating a positive pressure (bucal cavity contracts pushing air positively into lungs)

Question 6

what animal has one functional lung

Answer 6

snakes within reptiles (other lung is vestigial)

Question 7

how do reptiles compensate for exchange since the integument doesnt have any meaningful O2 exchange

Answer 7

have more sacculations in their lungs to increase surface area without necessarily creating a bigger lung

Question 8

what is a faveoli

Answer 8

a sac within the lungs of reptiles

Question 9

where is the most sacculation (faveoli) in the lungs of snakes

Answer 9

primarily in first 1/3 of the snakes lung (1st 1/3 cranially)

Question 10

what does the last 2/3 of the snake lung act as

Answer 10

acts as bellows which activates pressure cycles

Question 11

what is a bellows

Answer 11

an area that allows contraction or expansion

Question 12

how does a snake lung act as a bellows

Answer 12

old air in last 2/3 of lung is pushed towards outward creating an inner pull for new air to come in

Question 13

all amphibians have sacculated lungs, why

Answer 13

to increase surface area and increase gas exchange

Question 14

what is a thoracic cavity

Answer 14

present in mammalian lungs, pleural space, drained by lymphatic system)

Question 15

simply what are mammalian lungs

Answer 15

paired lungs with lobes

Question 16

how is air modified before coming into the lungs

Answer 16

air is conditioned to make it wetter, warmer, and cleaner

Question 17

where is the diaphragm

Answer 17

below the lungs

Question 18

how many lobes does a human heart have

Answer 18

5

Question 19

why is there no gas exchange on the conduction zone

Answer 19

its too thick

Question 20

why is gas exchange possible in the respiratory zone

Answer 20

because of millions of microscopic bubble like alveoli

Question 21

what does the respiratory tree begin with

Answer 21

trachea that is superior to the thoracic cavity

Question 22

the respiratory tree has successive branching, what are the main types of branching here

Answer 22

generations and alveoli

Question 23

how many generations are there in mammalian lungs

Answer 23

23 (0-16 conducting zone, 17-23 respiratory zone)

Question 24

what causes branchiolar constriction

Answer 24

smooth muscle walls of middle passagewats

Question 25

what was branchiolar constriction

Answer 25

reduced airflow

Question 26

what kind of constriction is present in asthma

Answer 26

hyperconstriction

Question 27

how many alveoli are in the lungs

Answer 27

300 million

Question 28

when would you use nearly all of the alveoli

Answer 28

when exercising

Question 29

what surface area does 300 million alveoli create

Answer 29

85m^2 surface area

Question 30

why do overweight individuals have a higher chance of having asthma

Answer 30

adipocytes release lung imflammatory protein (fatter you are, 3x more protein released and inflammation causes asthma)

Question 31

what promotes relaxation and increased airflow of bronchioles when having asthma attack

Answer 31

sympathetic division with epinephrine

Question 32

when would the bronchioles change in diameter

Answer 32

when they are inflammed they close up (asthma), when theyre relaxed theyre open

Question 33

as the diameter of the bronchioles increases, the resistence of fluid movement ….

Answer 33

decreases

Question 34

what affects the fluid movement of air in the bronchioles

Answer 34

tubule length and diameter

Question 35

what is the size of a single alveolus

Answer 35

300microns

Question 36

the main wall of the alveolus is made of what kind of cells

Answer 36

simple squamosal

Question 37

what are the type 1 epithelial cells

Answer 37

main all of alveolus

Question 38

what are the type 2 epithelial cells

Answer 38

between successive alveoli, secretory mitochondria

Question 39

what are secretory mitochondria

Answer 39

lamellated bodies

Question 40

what do secretory mitochindria produce

Answer 40

surfactant (dipalmitoyl lecithin)

Question 41

what does a lack of surfactant (dipalmitoyl lecithin) cause

Answer 41

can cause respiratory distress syndrome in children

Question 42

what do fibroblasts do

Answer 42

build connective tissue

Question 43

what do macrophages do

Answer 43

remove pathogens (defensive function)

Question 44

what kind of cells are type 2 epithelial cells

Answer 44

cuboidal

Question 45

whats the function of surfactant

Answer 45

reduces cohesion of water molecules, reducing surface tension

Question 46

what is the function of fibrocartilage in alveoli

Answer 46

ribrocartilage helps to keep alveoli open so gas exchange can continue

Question 47

what are ventilation dynamics

Answer 47

pressure volume changes (tissue fluid pressure in pleural cavity)

Question 48

why is tissue fluid pressure in pleural cavity higher than lung pressure

Answer 48

without the pressure difference lungs can collapse (pneumothorax)

Question 49

what is the pressure difference between pleural cavity and lungs during inhalation

Answer 49

3-4mmHg

Question 50

what is the pressure difference bwteen pleural cavity and lungs during exhalation

Answer 50

1-2mmHg difference from exhalation

Question 51

what is pneumothorax

Answer 51

when pressure between pleural cavity and lung is compromised, lung collapses and pleural cavity fills with air

Question 52

what forces lungs to move involuntarily

Answer 52

diaphragm will be activated to contract

Question 53

what direction do intercostals move

Answer 53

outward and up

Question 54

how much CO2 is in the body at all times

Answer 54

about 40mmHg

Question 55

how much CO2 is in the environment usually

Answer 55

about 100mmHg

Question 56

is inspiration or expiration always an active process

Answer 56

inspiration is ALWAYS an active process

Question 57

what are the types of volume changes

Answer 57

inhalation and exhalation

Question 58

how does inspiration happen

Answer 58

cavity boundaries expand and lung follows

Question 59

how does exhalation happen

Answer 59

cavity boundaries recoil, lungs follow

Question 60

how can exhalation be active or passive

Answer 60

passive because elastic recoil can force air from lungs, active because muscles (intercostals, rectus abdominus) can force air out of lungs

Question 61

what is anatomical dead space

Answer 61

the residual volume of air in lungs that cannot be forced out

Question 62

how much oxygen is found in alveoli

Answer 62

100mmHg

Question 63

how much oxygen is found in environment

Answer 63

160mmHg

Question 64

what is the exchange time to equilibrate blood to lung air

Answer 64

about 1/4 of a second

Question 65

what is the resting transit time to equilibrate blood to lung air

Answer 65

about 3/4 of a second

Question 66

what is the exercise transit time to equilibrate blood to lung air

Answer 66

about 1/3 of a second.

Question 67

equilibrating blood to lung air is a feature of which type of epithelial cells

Answer 67

type 1 epithelial cells

Question 68

elephants lack a pleural cavity, how do they keep their lungs from collapsing

Answer 68

lungs are tethered open

Question 69

what is west’s argument for elephant lungs being tethered open

Answer 69

evolved for snorkeling behavior, water compression would otherwise collapse the lungs

Question 70

what is elasticity

Answer 70

readily recoils to original shape

Question 71

what is compliance

Answer 71

stretches easily

Question 72

when is elasticity and compliance opposite of each other

Answer 72

at extreme ends of the spectra (if excessively elastic then lose compliance and vice versa)

Question 73

what are obstructive lung diseases

Answer 73

COPD and asthma

Question 74

what is COPD

Answer 74

chronic obstructive pulmonary disease

Question 75

how is COPD caused

Answer 75

cigarettes, volatile chemicals get in the middle of the respiratory tree and causes imflammation that can lead to emphazema meaning air cant get to alveoli because air tubing was blown apart, non reparable

Question 76

what do obstructive lung diseases do

Answer 76

increase airway resistance

Question 77

what do restrictive lung diseases do

Answer 77

increase elasticity of lungs

Question 78

whats an example of a restrictive lung disease

Answer 78

fibrotic lung disease

Question 79

how does fibrotic lung disease work

Answer 79

air bourse particles not being filtered out so they go in conductive or respiratory zone, tubercles are made in defense where fibroblasts trap off that part of the lung eventually reducing lung capacity

Question 80

what does VC=

Answer 80

VC=TVr+IRV+ERV

Question 81

what is vc

Answer 81

vital capacity

Question 82

what is tvr

Answer 82

tidal volume resting

Question 83

what is irv

Answer 83

inspiratory reserve volume

Question 84

what is erv

Answer 84

expiratory reserve volume

Question 85

what is vital capacity

Answer 85

maximum amount of air that can move through lungs

Question 86

what is the typical total lung capacity

Answer 86

around 4-6L

Question 87

what is vital capacity volume

Answer 87

3-5L

Question 88

what is residual volume typically

Answer 88

1L

Question 89

what is residual volume

Answer 89

excess air in lungs that cant be pushed out

Question 90

what is tidal volume

Answer 90

amount of air moved in a breathing cycle

Question 91

what is a typical tidal volume at rest

Answer 91

about 500ml

Question 92

what is a typical inspiratory reserve

Answer 92

3L

Question 93

what is a typical expiratory reserve

Answer 93

1L

Question 94

inspiratory and expiratory each have their own ___ potantial

Answer 94

pacemaker

Question 95

what is the purpose of increasing depth and rate of breathing for tetrapod vertebrates

Answer 95

maintaining hemoglobin saturation of O2 and CO2

Question 96

what does branchiolar dialation do

Answer 96

lowers resistance

Question 97

where in the brain is breathing controlled

Answer 97

medulla oblongata

Question 98

what does the VRG of the medulla have

Answer 98

inspiratory and expiratory neurons

Question 99

what does the DRG of the medulla have

Answer 99

modifies VRG activity

Question 100

where does the pacemaker potention of inspiration and expiration happen

Answer 100

in the medualla