Respiratory

Question 1

what are the three components of the blood air barrier

Answer 1

alveoli cell, fused basement membrane, capillary endothelium

Question 2

what is surfactant and where is it secreted from

Answer 2

secreted from the alveoli cells to reduce surface tension (stops lungs collapsing)

Question 3

what is the pathway of air down the respiratory tract

Answer 3

nasal and oral cavity, pharynx, larynx, trachea, bronchi, bronchioles, alveoli ducts, alveoli

Question 4

what is Boyles law

Answer 4

as volume increases, pressure decreases and vice versa

Question 5

what is Patm

Answer 5

atmospheric pressure, outside the lungs

Question 6

what is Palv

Answer 6

pressure within the alveoli

Question 7

what is Pip

Answer 7

intrapleural pressure (within the pleural cavity), negative pressure

Question 8

inspiration is active or passive

Answer 8

active

Question 9

pressure in the lungs needs to be __ than pressure in the atmosphere for air to move in

Answer 9

lower

Question 10

what intercostal muscles are involved in inspiration

Answer 10

external

Question 11

internal intercostals are used for

Answer 11

forced expiration

Question 12

what are the inspiration accessory muscles

Answer 12

sternocleidomastoid, pectoralis minor

Question 13

expiration is active or passive

Answer 13

passive

Question 14

pressure in the lungs needs to be __ than the atmospheric pressure for air to flow out

Answer 14

higher

Question 15

the chest tends to __ outwards

Answer 15

recoil

Question 16

the lungs have elastic elements so tend to __ inwards

Answer 16

recoil

Question 17

intrapleural pressure is always

Answer 17

negative, like a suction pressure

Question 18

Vt

Answer 18

tidal volume, volume of air moves in and out during normal quiet ventilation

Question 19

I

Answer 19

inspiratory

Question 20

E

Answer 20

expiratory

Question 21

R

Answer 21

reserve/residual

Question 22

F

Answer 22

functional

Question 23

C

Answer 23

capacity

Question 24

Ve

Answer 24

minute ventilation

Question 25

Va

Answer 25

alveolar ventilation

Question 26

Vd

Answer 26

dead space

Question 27

f

Answer 27

frequency

Question 28

P

Answer 28

partial pressure

Question 29

PA

Answer 29

alveolar pressure

Question 30

Pa

Answer 30

arterial pressure

Question 31

Pv

Answer 31

venous pressure

Question 32

IRV

Answer 32

inspiratory reserve volume, extra volume that can be inspired in a forced inspiration

Question 33

ERV

Answer 33

expiratory reserve volume, extra volume that can be expired in a forced expiration

Question 34

RV

Answer 34

residual volume, inflation after a forced expiration, to keep lungs from collapsing

Question 35

VC

Answer 35

vital capacity, maximal breath in to maximal breath out

Question 36

TLC

Answer 36

total lung capacity, amount of air if you breath all the way in

Question 37

IC

Answer 37

inspiratory capacity, total amount able to be drawn into lungs after normal expiration

Question 38

FRC

Answer 38

functional residual capacity, volume in lungs at end of tidal expiration (represents equilibrium as to change volume from here need to do work)

Question 39

how to calculate VC

Answer 39

ERV + Vt + IRV

Question 40

how to calculate TLC (total lung capacity)

Answer 40

VC + RV

Question 41

how to calculate IC

Answer 41

Vt + IRV

Question 42

how to calculate FRC

Answer 42

RV + ERV

Question 43

equation for Ve

Answer 43

Vt x f

Question 44

how many breaths does the average person take per minute

Answer 44

12

Question 45

how much volume is dead space

Answer 45

150ml

Question 46

hyperventilation is

Answer 46

fast, deep breathing

Question 47

hypoventilation is

Answer 47

slow, shallow breathing

Question 48

equation for Va

Answer 48

f x (Vt-Vd)

Question 49

the partial pressure of a gas is directly proportional to

Answer 49

its concentration or fractional content

Question 50

in a mixture of gases, the total pressure exerted is the sum

Answer 50

of the partial pressures

Question 51

daltons law is to do with

Answer 51

partial pressure

Question 52

the sum of the partial pressures is called

Answer 52

Patm

Question 53

how to calculate partial pressure of any gas

Answer 53

fractional content x total pressure

Question 54

is the PO2 higher in the alveoli or the atmosphere and why

Answer 54

atmosphere as in the alveoli some exchanges out so there is less of it

Question 55

is PCO2 higher in the alveoli or the atmosphere and why

Answer 55

in the alveoli as some has been diffused from the body into the alveoli

Question 56

what is Ficks law

Answer 56

F = D x A x (P1 - P2) / T

Question 57

what is F in Ficks law

Answer 57

rate of diffusion

Question 58

what is A in ricks law

Answer 58

surface area

Question 59

what is D in Ficks law

Answer 59

diffusion constant

Question 60

what does the diffusion constant depend on

Answer 60

gas solubility and its molecular weight

Question 61

CO2 diffuses __x faster that O2 due to __

Answer 61

20, higher solubility in CO2, even though it has a smaller partial pressure gradient

Question 62

what is emphysema

Answer 62

decrease in surface area of the lungs leading to decreased PO2 in blood

Question 63

what is T in Ficks law

Answer 63

thickness

Question 64

what is pulmonary fibrosis

Answer 64

thickening of alveolar membranes, leading to decreased PO2 in blood

Question 65

everything above the line in Ficks law is __ proportional to flux

Answer 65

directly, so if they go up, so will flux

Question 66

everything below the line in Ficks law is __ proportional to flux

Answer 66

indirectly, so if they go up, flux will go down

Question 67

what is the main factor in flux

Answer 67

partial pressure difference as this drives diffusion of gases from alveolar to arterial

Question 68

Ficks law of diffusion is related to

Answer 68

flux, diffusion, surface area, partial pressure and thickness

Question 69

PO2 is __ in muscles than in blood

Answer 69

lower, there is a gradient for O2 to move in

Question 70

PCO2 is __ in muscles than in the blood

Answer 70

higher, so there is a gradient to move out of the muscles, this increases during exercise

Question 71

PO2 is __ in the blood than in the alveoli

Answer 71

lower

Question 72

PCO2 is __ in the blood than in the alveoli

Answer 72

higher

Question 73

does O2 or CO2 have a larger pressure gradient

Answer 73

O2, however CO2 diffuses 20x faster due to higher solubility

Question 74

what are the two forms that O2 is transported

Answer 74

combined with haemoglobin and dissolved in plasma

Question 75

what are the three forms that CO2 is transported

Answer 75

dissolved in the plasma, as bicarbonate, combined with haemoglobin

Question 76

98% of O2 is transported

Answer 76

bound to haemoglobin

Question 77

1 Hb molecule can carry __ molecules of O2

Answer 77

4

Question 78

2% of O2 is transported

Answer 78

dissolved within plasma (around 3mL in each L of blood)

Question 79

1 Hb molecule has __ haem groups

Answer 79

4

Question 80

each molecule of O2 that binds to Hb __ another molecule of O2 binding

Answer 80

facilitates

Question 81

what is the co-operative effect

Answer 81

one O2 molecule binding to Hb making it easier for the next to bind which makes it even easier for the next etc

Question 82

what is O2 binding to Hb called

Answer 82

oxygenation

Question 83

is oxygenation reversible

Answer 83

yes, so that O2 can be offloaded to muscles, as one leaves it makes it easier for the next etc

Question 84

Hb being fully saturated is represented by the percentage

Answer 84

98%, the other 2% is dissolved in plasma

Question 85

the Hb-O2 saturation of Venous blood is

Answer 85

75%, as one O2 molecule has been offloaded at rest, venous saturation will be lower during exercise as there is more demand for O2 so more is offloaded

Question 86

the Hb-O2 saturation of arterial blood is

Answer 86

98%, as it has just been oxygenated

Question 87

the amount of O2 bound to Hb is determined by

Answer 87

the PO2 in the blood

Question 88

Hb has a high __ for O2 at full saturation, this decreases as O2 is offloaded

Answer 88

affinity

Question 89

What is the Bohr effect

Answer 89

describes Hb’s affinity for oxygen

Question 90

what happens in the Bohr effect

Answer 90

a left or right shift in the oxy-haemoglobin dissociation curve which is caused by an increase/decrease in CO2, H+ ions (pH) and temperature

Question 91

according to the Bohr effect, a left shift occurs in the __ and facilities more ___ of oxygen (increased __) caused by __ levels of CO2, H+ and __ temperature

Answer 91

lungs, loading, loading, lower, low

Question 92

according to the Bohr effect, a right shift occurs in the __ and facilities more ___ of oxygen (increased __) caused by __ levels of CO2, H+ and __ temperature

Answer 92

tissues, release, unloading, higher, high

Question 93

how much of CO2 is transported in dissolved plasma

Answer 93

7%

Question 94

how much of CO2 is transported combined with haemoglobin

Answer 94

23%

Question 95

how much of CO2 is transported as bicarbonate

Answer 95

70%

Question 96

when CO2 is bound to Hb (globin chains) Hb has a much __ affinity for O2

Answer 96

lower

Question 97

is CO2 binding to Hb subunits (globin chains) reversible or irreversible

Answer 97

reversible, so it can be offloaded at gas exchange

Question 98

conversion from CO2 to HCO3- happens in

Answer 98

red blood cells with enzyme assistance

Question 99

once CO2 has been converted to HCO3- it can then

Answer 99

move into the plasma and CO2 now travels around the body as HCO3- in the plasma

Question 100

Remember to learn Spirometry tracing

Answer 100

so you can label the diagram

Question 101

alveolar ventilation is decreased by

Answer 101

hypoventilation

Question 102

alveolar ventilation is increased by

Answer 102

hyperventilation

Question 103

what is PO2 when Hb-O2 saturation is at 75%

Answer 103

40mmHg

Question 104

what is PO2 when Hb-O2 saturation is at 98%

Answer 104

100mmHg

Question 105

what is Patm of O2

Answer 105

160mmHg

Question 106

what is Palv of O2

Answer 106

100mmHg

Question 107

what is the Fair of O2

Answer 107

0.21

Question 108

what is Patm of CO2

Answer 108

0.2mmHg

Question 109

what is Palv

Answer 109

40mmHg

Question 110

what is the Fair of CO2

Answer 110

0.0004