SM_174a-175a: Pulmonary Function

Question 1

Obstructive lung diseases include _____, _____, and _____

Answer 1

Obstructive lung diseases include emphysema, chronic bronchtis, and asthma

Question 2

In obstructive lung diseases, the lungs are _____ and may _____ gas

Answer 2

In obstructive lung diseases, the lungs are hyperinflated and may trap gas

Question 3

In emphysema, _____ elastic recoil pressure _____ resting lung volume, and _____ elastic recoil pressure and tendency of airways to collapse _____ exhalation

Answer 3

In emphsema, decreased elastic recoil pressure elevates resting lung volume, and decreased elastic recoil pressure along with the tendency of airways to collapse limits exhalation

Question 4

In chronic bronchitis and asthma, airflow obstruction occurs because of _____

Answer 4

In chronic bronchitis and asthma, airflow obstruction occurs because of increased airway resistance

(due to some combo of intraluminal mucus, airway wall edema, bronchospasm, and airway wall remodeling)

Question 5

An example of a restrictive lung disease is ____

Answer 5

An example of a restrictive lung disease is IPF

Question 6

Restrictive lung diseases are characterized by ______

Answer 6

Restrictive lung diseases are characterized by low lung volumes

Question 7

In pulmonary fibrosis, lung volume is decreased because of ______

Answer 7

In pulmonary fibrosis, lung volume is decreased because of increased elastic recoil pressure (decreased lung compliance)

Question 8

Spirometry measures _____

Answer 8

Spirometry measures expiratory flow rates

Question 9

FVC = _____ - _____

Answer 9

FVC = TLC - RV

Question 10

FEV₁ is defined as the ____

Answer 10

FEV₁​ is defined as the forced expiratory volume in the first second of trying

Question 11

Normal FEV₁ / FVC = _____

Answer 11

Normal FEV₁ / FVC = 75%

(drops with age)

Question 12

In obstructive lung disease, FEV₁ _____, FVC _____, and FEV₁ / FVC _____

Answer 12

In obstructive lung disease, FEV₁ decreases, FVC decreases or stays constant, and FEV₁ / FVC decreases

( FEV₁ / FVC < 0.7 indicates obstructive lung disease)

Question 13

Why does FEV₁ / FVC decrease in obstructive lung disease?

Answer 13

FEV₁ / FVC decreases in obstructive lung disease

• FEV₁ decreases because of decreased lung elastic recoil pressure or increased airway resistance
• FVC may not fall as much because motivated patients may exhale over a longer period
• This time compensation results in less of a decrease in FVC relative to FEV₁, which decreases FEV₁ / FVC

Question 14

In restrictive lung disease, FEV₁ ______, FVC ______, and FEV₁ / FVC ______

Answer 14

In restrictive lung disease, FEV₁ decreases, FVC decreases, and FEV₁ / FVC increases

Question 15

Why does FEV₁ / FVC increase in restrictive lung disease?

Answer 15

FEV₁ / FVC increases in restrictive lung disease

• Airflow flow rates plotted at isovolume flow (absolute lung volume) may be higher than normal because elastic recoil pressure is higher and airway resistance is lower than normal
• Exhalation time may be shorter than normal

Question 16

Normalization of FEV₁ and FVC following albuterol suggests the patient has _____

Answer 16

Normalization of FEV₁ and FVC following albuterol suggests the patient has asthma

(asthma patients can have normal pulmonary function when asymptomatic)

Question 17

In asthma patients, methacholine causes _____ in spirometric measures that _____ with rescue albuterol

Answer 17

In asthma patients, methacholine causes a drop in spirometric measures that improves with rescue albuterol

Question 18

Diffusing capacity for carbon monoxide (DLCO) measures the ______

Answer 18

Diffusing capacity for carbon monoxide (DLCO) measures the uptake of inhaled carbon monoxide by hemoglobin

Question 19

DLCO is increased when _____

Answer 19

DLCO is increased when there is increased hemoglobin in areas of intact ventilation (alveolar hemorrhage, polycythemia)

(breathe in CO but exhale less CO than expected so CO was taken up)

Question 20

DLCO is decreased when _____

Answer 20

DLCO is decreased when ventilation does not match perfusion (low V/Q) or when there is loss of blood (anemia, R->L shunt) or loss of functional blood vessels (pulmonary embolism, emphysema, interstitial lung disease)

(breathe in CO but exhale more CO so CO was not taken up)

Question 21

Describe the lung volumes and capacities

Answer 21

• FRC: resting lung volume (volume of lung at end of a quiet tidal breath), which is determined by inward elastic recoil of lung and outward elastic recoil of the chest wall
• IC = TLC - FRC
• TLC: amount of air present within lungs when they are maximally inflated
• RV: amount of air present within lungs when they are maximally deflated
• ERV = FRC - RV
• IRV = IC - TV
• TV: amount of air inspired during quiet breath

Question 22

The width of the flow volume loop is ____

Answer 22

The width of the flow volume loop is FVC

Question 23

Draw the flow-volume loop for an obstructive lung disease and for a restrictive lung disease

Answer 23

• Obstructive lung disease: scooped / concave up
• Restrictive lung disease: narrow

(note that curves may face right or left depending on software used)

Question 24

The normal inspiratory loop on a flow-volume curve is _____

Answer 24

The normal inspiratory loop on a flow-volume curve is symmetric and U-shaped

Question 25

Flattening of the inspiratory loop on the flow-volume curve suggests _____ or _____

Answer 25

Flattening of the inspiratory loop on the flow-volume curve suggests inadequate strength/effort/technique during the forced inhalation maneuver or upper airway obstruction (vocal cord dysfunction, epiglottitis, laryngeal edema, or laryngeal malignancy)

Question 26

The normal expiratory loop on a flow-volume curve is ______ because _______

Answer 26

The normal expiratory loop on a flow-volume curve is asymmetric because higher expiratory flows are generated at larger lung volumes

(this is because elastic recoil pressure is greater and airway resistance is lower via tethering effects of alveoli at higher lung volumes)

Question 27

Normal expiratory loop on a flow-volume curve is asymmetric because higher expiratory flows are generated at larger lung volumes due to _____ and _____

Answer 27

Normal expiratory loop on a flow-volume curve is asymmetric because higher expiratory flows are generated at larger lung volumes due to:

• greater elastic recoil pressure
• lower airway resistance resulting from the inflated lung pulling the airways open via the tethering effects of alveoli

Question 28

V·_max = _____ / _____

Answer 28

V·max = P_el / R_airway

(maximal expiratory airflow = elastic recoil pressure / resistance upstream to the equal pressure point)

P_alv is alveolar pressure, P_pl is pleural pressure

Question 29

Once a certain threshold expiratory effort is generated, greater efforts _____ expiratory flow rates

Answer 29

Once a certain threshold expiratory effort is generated, greater efforts do not increase expiratory flow rates

(this is called effort independence)

(greater efforts countered by more airway compression)

Question 30

Expiratory flow rates are greater at _____ lung volume, which is where P_el is _____ and R_airway is _____

Answer 30

Expiratory flow rates are greater at larger lung volume, which is where P_el is high and R_airway​ is low

Question 31

Describe the volume-time curve for obstructive lung disease and restrictive lung disease

Answer 31

Volume-time curve

• Obstructive lung disease: expire less air in first second, can reach same expired volume after much longer time
• Restrictive lung disease: limit to the amount of air that can be expired

Question 32

Expiratory airflow is decreased most by ____ and _____

Answer 32

Expiratory airflow is decreased most by low P_el and high R_airway

Question 33

Emphysema is best characterized by ______

Answer 33

Emphysema is best characterized by hyperinflation with low DLCO

Question 34

Isovolume airflow is high in ______

Answer 34

Isovolume airflow is high in pulmonary fibrosis

(restrictive lung disease)

Question 35

Which test result regarding FEV₁ / FVC suggests asthma?

Answer 35

Low FEV₁ / FVC that normalizes after albuterol

Question 36

Flattening of the inspiratory loop can be caused by _______ obstruction

Answer 36

Flattening of the inspiratory loop can be caused by variable extra-thoracic (upper) airway obstruction

(also by inadequate strength, effort, or technique during forced inhalation maneuver)

Question 37

V·_max = ____ / _____

Answer 37

V·_max = P_el / R where P_el is elastic recoil pressure of lung and R is resistance of airway

• Tethering of alveoli keeps airway open
• Higher lung volumes increase P_el
• At TLC, P_el is high and R is low, which helps generate high flow

Question 38

In obstructive lung disease, lung volumes are _____

Answer 38

In obstructive lung disease, lung volumes are normal or increased

Question 39

In restrictive lung disease, lung volumes are _____

Answer 39

In restrictive lung disease, lung volumes are decreased

Question 40

In emphysema, the expiratory part of the flow-volume curve is _____

Answer 40

In emphysema, the expiratory part of the flow-volume curve is scooped out / concave (obstructive lung disease)

• Damage to alveoli causes loss of elastic recoil
• P_el decreases so peak flow decreases and flows are decreased at any given volume
• Airways collapse due to loss of tethering of elastic structure

Question 41

In chronic bronchitis, the expiratory part of the flow-volume curve is _____

Answer 41

In chronic bronchitis, the expiratory part of the flow-volume curve is scooped out / concave (obstructive lung disease)

• Larger airways are narrowed so R increases

Question 42

In asthma, the expiratory part of the flow-volume curve is ______

Answer 42

In asthma, the expiratory part of the flow-volume curve is scooped out / concave

• Airways narrowed so R increases so V·_max decreases (flow decreases)

Question 43

In obstructive lung disease, FEV₁ / FVC ______

Answer 43

In obstructive lung disease, FEV₁​ / FVC decreases

(FEV₁ and FVC decrease but the ratio decreases due to time compensation)

(< 0.7 is obstructive lung disease)

Question 44

In restrictive lung disease, FEV₁ / FVC ______

Answer 44

In restrictive lung disease, FEV1 / FVC increases

• Isovolume flow higher than health
• Width on flow-volume curve is narrower: FVC decreases