exam 2 lecture 19 and 20

Question 1

1.The A-a gradient

Answer 1

The difference between the amount of O₂ in the alveolar gas versus the arterial blood tells you if the lung is sick, or there’s not enough breathing going on

Question 2

PaO2

Answer 2

pressure of oxygen gas dissolved in the arterial blood

mmHg

Question 3

PaCO2

Answer 3

pressure of carbon dioxide dissolved in the arterial blood

mmHg

Question 4

5 causes of hypoxemia

Answer 4

1. Low inspired oxygen (decreased PiO₂)•High altitude
2. Hypoventilation•Not breathing enough (hold your breath)
3. Diffusion limitation•Blood-gas barrier is too thick
4. Shunt•Some blood is bypassing the lungs•“Hole in heart”
5. Ventilation-perfusion (V/Q) inequality•The amount of ventilation isn’t matching the blood flow in the lungs

Question 5

what causes low inspired oxygen?

Answer 5

decreased PiO2

high altitude

Question 6

what causes hypoventilation

Answer 6

not breathing enough/holding your breath

Question 7

what is a diffusion limitation

Answer 7

blood gas barrier is too thick (Fick’s law)

Question 8

What causes a shunt

Answer 8

some blood is bypassing the lungs

hole in the heart

Question 9

what causes V/Q mixmatch

Answer 9

the amount of ventilation isn’t matching the blood flow in the lungs

Question 10

what causes of hypoxemia are problems with the lungs?

Answer 10

2. Diffusion limitation•Blood-gas barrier is too thick
3. Shunt•Some blood is bypassing the lungs•“Hole in heart”
4. Ventilation-perfusion (V/Q) inequality•The amount of ventilation isn’t matching the blood flow in the lungs

Question 11

what causes of hypoxemia are causes by problems not the lungs

Answer 11

1. low inspired oxygen, decreased PiO2, high altitude
2. Hypoventilation•Not breathing enough (hold your breath)

Question 12

which one, PAO2 or PaO2, has to be bigger ?

Answer 12

PAO2 needs to be bigger to get air to move by diffusion from the alveoli to the arterial blood

Question 13

what is the normal A-a gradient

Answer 13

5-10 mmHg

Question 14

Answer 14

showing how O2 is lost from the atmosphere to the tissues

A-a gradient =5-10 mmHg

Question 15

how to calculate PAO2

Answer 15

respiratory quotient (RQ) = relationship between O2 and CO2

mixed diet = 0.8

PAO2= FiO2(P_atm-47) - (PaCO2/0.8)

= O2 going in and O2 going out

Question 16

= is the amount of oxygen that enters the alveoli from the airways (PiO₂) MINUS the amount oxygen leaving the alveoli into the capillary blood

Answer 16

PAO2

partial pressure of O2 in the alveolar

usually 100mmHg

Question 17

PH20

Answer 17

47

pressure of H20 dissolved in the airways cause the body is warmer then the environment

Question 18

___= [(P_ATM – PH₂O) x FiO₂] – (P_ACO₂ / R)

Answer 18

PAO2

Question 19

CO₂ is so highly soluble that alveolar CO₂ (P_ACO₂) and arterial CO₂ (P_aCO₂) are basically ___

Answer 19

the same.

Question 20

what causes high A-a gradient?

Answer 20

lung problem

•If hypoxemia is caused by a problem with the lungs (pulmonary hypoxemia), then oxygen won’t transfer well from the alveolus to the blood, so the A-a gradient will be HIGH

1. Diffusion limitation•Blood-gas barrier is too thick
2. Shunt•Some blood is bypassing the lungs•“Hole in heart”
3. Ventilation-perfusion (V/Q) inequality•The amount of ventilation isn’t matching the blood flow in the lungs

Question 21

what causes of hypoxemia do not effect the A-a gradient?

Answer 21

1. Low inspired oxygen (decreased PiO₂)•High altitude
2. HypoventilationNot breathing enough (hold your breath)

Question 22

•If hypoxemia is caused by a problem with the lungs (pulmonary hypoxemia), then oxygen won’t transfer well from the alveolus to the blood, so the A-a gradient will be ___

Answer 22

high

1. Diffusion limitation•Blood-gas barrier is too thick
2. Shunt•Some blood is bypassing the lungs•“Hole in heart”
3. Ventilation-perfusion (V/Q) inequality•The amount of ventilation isn’t matching the blood flow in the lungs

Question 23

•If hypoxemia is just caused by decreased breathing effort (hypoventilation; don’t forget to breathe!) or the P_iO₂ is lower (high altitude) but the A-a gradient will be ___

Answer 23

normal

1. Low inspired oxygen (decreased PiO₂)•High altitude
2. Hypoventilation•Not breathing enough (hold your breath)

Question 24

why is A-a gradient normal with low PiO2

Answer 24

PiO2= FiO2(P_atm-PH20)

at high altitude both PAO2 and PaO2 are decreased so the A-a gradient is normal

Question 25

what is a common response to low PaO2

Answer 25

hyperventilation

decreased PaCO2

Question 26

often ___ (hyperventilation in response to low PaO2)

Answer 26

decreased PaCO2

Question 27

what effects CO2 in your blood

Answer 27

ventilation

Question 28

Answer 28

PACO2=VCO2/VA

amount of CO2 directly effected by ventilation

the faster you breathe the less CO2

the slower you breath the more CO2

Question 29

___ FiO₂ alleviates hypoxemia because it leads to an increase in alveolar PO₂

Answer 29

increasing

P_AO₂ = FiO₂ (P_ATM – PH₂O) – (P_ACO₂/R)

PiO2= FiO₂ (P_ATM – PH₂O)

Question 30

what happens to PCO2 with hypoventilation?

Answer 30

increased

Question 31

how to fix increased PCO2?

Answer 31

ventilation (needs to breathe faster)

increased CO2 is from hypoventilation

Question 32

causes of hypoventilation

Answer 32

–Central respiratory depression (CNS disease, drugs)

–Abnormal respiratory muscle function

–Thoracic cage abnormalities

–Pleural space disease

–Upper airway obstruction

Question 33

what happens to PO2 and PCO2 during hypoventilation and how do you fix it?

Answer 33

O2 decreases

CO2 increases

O2 fixed by giving more oxygen (increase FiO2)

PaO2= FiO₂ (P_ATM – PH₂O) - (P_ACO₂/R)

CO2 fixed by ventilating patient and increasing breathe

Question 34

explain diffusion limitation and how is causes hypoxemia

Answer 34

hemoglobin requires 0.25 seconds to get all O2, it normal takes hemoglobin 0.75 seconds to get across- plenty of time

if the walls become thickened (ficks law) it is harder for O2 to diffuse and it takes longer for hemoglobin to get full.

CO2 not effected cause it is 20x more soluble then O2

Question 35

what happens to A-a gradient with diffusion limitation

Answer 35

high

lots of O2 in the alveoli but none of it can get to the blood so big difference between A and a

Question 36

•Impaired diffusion generally results from an ___ – due to fluid or fibrosis in the interstitium (not in the alveolar lumen)

Answer 36

increase in the thickness of the blood gas barrier

Question 37

what happens to PaCO2 during diffusion limitation

Answer 37

usually normal

•PaCO₂ does not increase until lesion is severe because it diffuses 20X more readily

Question 38

where is A-a gradient changed for diffusion limiations?

Answer 38

Question 39

where is A-a gradient increased for a shunt

Answer 39

Question 40

___ is when deoxygenated venous blood added to arterial circulation that has bypassed ventilated areas of lung

Answer 40

shunt

Question 41

what are two physiologic shunts?

Answer 41

bronchial circulation

coronary venous blood

Question 42

what are two pathologic shunts?

Answer 42

right to left cardiac shunt (VSD)

intrapulmonary- •Deoxygenated blood passes through normal pulmonary vasculature without contacting ventilated alveoli

Question 43

what cause of hypoxemia responds poorly to oxygen?

Answer 43

shunt

big shunt will skip lungs, doesn’t matter if you put a bunch of O2 into the lungs, the O2 will not get into the blood

Question 44

Answer 44

show how supplemental O2 will effect PaO2 with a shunt

big shunt= O2 does NOT help

little shunt = O2 helps

Question 45

Answer 45

CO2 is so soluble, as long as a small amount of blood gets to the lungs CO2 will diffuse easily

Question 46

V/Q mismatch will cause an A-a gradient to be ___

Answer 46

high

Question 47

___ responsible for most of the defective gas exchange (& resultant hypoxemia) in pulmonary disease

Answer 47

•V/Q mismatch

Question 48

Answer 48

gas flow

ventilation (L/min)

Question 49

Answer 49

blood flow

ml/min

Question 50

dead space ventilation

Answer 50

V/Q > 1

ventilation excessive relative to blood flow

breathing to fast or blood to slow

Question 51

venous admixture

Answer 51

perfusion (pulmonary capillary blood flow) excessive compared to ventilation

V/Q < 1

blood to fast, venous deoxygenated blood will mix with oxygenated blood cause it moved to quickly to gain O2 from alveoli

Question 52

what has V/Q <1

Answer 52

venous admixture

blood to fast to get enough oxygen

deoxygenated blood will mix with oxygenated blood

Question 53

what has V/Q >1

Answer 53

dead space ventilation

breathing normal but blood too slow

Question 54

what is the V/Q from a blocked airway

Answer 54

less then 1

too much Q not enough V

venous admixture

Question 55

what is the V/Q from a blood clot

Answer 55

greater than 1

dead space ventilation

too much V not enough Q

Question 56

what are some causes of venous admixture

Answer 56

V/Q less then 1

•Decreased V/Q (<1) = “intrapulmonary shunt”

–Occlusion of small airways (asthma, bronchitis)

–fluid filled alveoli (pulmonary edema)

–Collapsed alveoli (atelectasis)

Question 57

what are some causes of dead space ventilation

Answer 57

V/Q greater than 1

–emphysema (destruction of capillary alveolar interface

–reduced blood flow (emboli (blood clot), pulmonary hypertension)

Question 58

normal value for PACO2

Answer 58

38-44 mmHg

Question 59

normal value for PaO2

Answer 59

90-100 mmHg

Question 60

term for increase for CO2

Answer 60

hypercarbia

hypercapnia

Question 61

calculate PAO2

if room air and PACO2=48.3

if 100% O2

Answer 61

PAO2= FiO2(Patm-47) - (PACO2/0.8)

0. 21(760-47) -(48.3/0.8)
1. 73- 60.38

89.36 mmHg

1(760-47) -(48.3/0.8)

713-60.38

652.62

Question 62

what is the A-a gradient if

room air: PAO2 is 90, PaO2 is 59.8

100% O2= PAO2 653, PaO2 59.8

what does the A-a tell us?

Answer 62

A-a= 30.2

A-a= 593.2

abnormal= issue with lungs (shunt, V/Q or diffusion limitation)

Question 63

The effects of gravity mean that the more dependent (lower down) alveoli are ____ than the less-dependent alveoli

Answer 63

smaller and less ventilated

Question 64

explain

Answer 64

gravity causes alveoli at the bottom to be smaller (slinky)

gravity causes blood to pool at the bottom

leads to V/Q mixmatch

Question 65

what is hypoxic vasoconstriction?

Answer 65

when V/Q messed up the pulmonary arteries will become smaller in response to low alveolar O2, this reduction in blood flow(Q) will result in an increase in V/Q

not enough ventilation, blood flow will decrease to match

Question 66

explain pulmonary reflex to V/Q less then 1

Answer 66

decreased V will trigger pulmonary arteries to constrict so that V/Q increases

Question 67

explain pulmonary reflex to V/Q greater then 1

Answer 67

too much ventilation will cause pulmonary arteries to constrict to match V

Question 68

When the blood vessels sense a low oxygen tension (from hypoventilated alveoli, low V) THEY ____ thus reducing Q, which corrects the V/Q mismatch

Answer 68

vasocontrict

Question 69

explain hypocapnic bronchoconstriction

Answer 69

too little CO2

airways will close/constrict to allow CO2 to try to normalize

The airways bronchoconstrict in response to low alveolar CO₂ causing decreased alveolar ventilation (V) → decrease V/Q ratio

Question 70

what can cause hypocapnia?

Answer 70

hyperventilating → breath off CO2

pulmonary embolus→ blood can’t get to lungs, CO2 can’t get out??

Question 71

how to correct local V/Q mixmatch?

Answer 71

Question 72

anesthesia will do what to the compensatory mechanisms for V/Q mixmatch?

Answer 72

turn them off!

Question 73

what is V/Q for the top and bottom?

Answer 73

top = greater than 1= dead space ventilation

bottom = less then 1 = venous admixture

Question 74

why does supplemental O2 help V/Q mixmatch for ventilated patient?

Answer 74

cancels out abnormal A-a, there is so much extra O2 that the V/Q will balance out

Question 75

what is a right to left shunt?

Answer 75

blood from deoxygenated (right side) is mixing with oxygenated (left side) without becoming oxygenated

•It means that blood from the de-oxygenated right side of the heart bypasses the lung and is shunted directly into the left side of the heart, so it dilutes the oxygenated blood with deoxygenated

Question 76

Answer 76

normal= hypoventilation or altitude

abnormal= shunt, V/Q or diffusion limitation

Question 77

Answer 77

responsive= low V/Q or diffusion limitation

non responsive= shunt

Question 78

what happens to PaCO2, A-a gradient and PaO2 on oxygen for all 5 causes of hypoxia?

Answer 78

Question 79

calculate A-a gradient if

Answer 79

PAO2= 0.3(760-47) - (45/0.8)

214- 56.25

158

A-a= 158-67= 91 abnormal

issue with lungs (shunt, v/q or diffusion)

her PaCO2 is also elevated→ hypoventilation

two things are going wrong

Question 80

hypoventilation does what to CO2?

what can cause this?

Answer 80

increases CO2

–Brain problem (anesthesia, brain disease)

–Diaphragmatic problem (exhaustion, injury)

–Lung problem? (has to be really REALLY severe)

Question 81

hyperventilation does what to CO2

what causes this?

Answer 81

decreases

–Fear or pain (increased resp rate)

–Hypoxia (low oxygen increases resp. rate)

–Acidemia (if the blood is too acidic from other problems, the patient will “blow off” the acidic CO₂ to normalize blood pH)

Question 82

calculate A-a

what does this mean?

Answer 82

PAO2= FiO2(760-47) -(PaCO2/0.8)

0. 21(760-47)- (60/0.8)
1. 73-73
2. 73

A-a= 76.73-70= 6.73

A-a normal and CO2 increased= hypoventilation issue

Question 83

PaCO2 when hypoventilating or hyperventilating

Answer 83

hyper= less then 40

hypo = greater than 40

PACO2= VCO₂/V_A

CO₂ is so highly soluble that alveolar CO₂ (P_ACO₂) and arterial CO₂ (P_aCO₂) are basically the same, so clinically they are used interchangeably