lecture 3: pulm function test

Question 1

what are 3 reasons for performing pulm function tests

Answer 1

1) Diagnossi (allegrgies, resp infections, chronic disease ex: COPD)
2) Presurgery screening (for lung function)
3) Assess treatment of current condition

=quick way to assess pulm health

Question 2

what are 3 different methods of measurement for pulm fucntion test

Answer 2

1) plethysmography (measures changes in pressure)
2) gas dilution test (ex: nitrogen washout, helium dilution)
3) Spirometry (measures changes in vol)

Question 3

what are some factors that affect PFT results

Answer 3

age
height
sex
ethniticty

Question 4

explain how age can affect PFT results

Answer 4

increase age=decrease elasticity of lungs

=decreaese PFT values

Question 5

explain how height can affect PFT values

Answer 5

if you have a larger height= larger PFT values

larger lung size

Question 6

explain how sex can affect PFT values

Answer 6

males have larger PFT values than females

Question 7

explain how ethnicity can affect PFT values

Answer 7

there are anthropometric differences across ethnicities that will affect it

Question 8

what are the indications for before doing PFT

Answer 8

1) no smoking within 1 hour of test
2) no alchohol consumption within 4 hours of test
3) no vig exercise 30 minutes before test
4) no large meals within 2 hours of test (stom will take more space)

Question 9

what are the 4 static luung valomes

Answer 9

tidal vol
inspiratory reserve volume
expiratory reserve volume
residual volume

Question 10

explain tidal volum

Answer 10

the volume of air inhaled/exhaled during a nromal breath
=without concious effort

(normally 200-500 ml but can increase to more than 3L)

Question 11

does IRV decreaese or icnrease with exrcise and why

Answer 11

it decreases because tidal volume increases

Question 12

explain inspiratory reserve volume

Answer 12

the vol of air that can be maximally inhaled at the end of a normal tidal inspiration
(end todal to max inhale)

normally approx 1900 in fem
3000 in men

Question 13

explain Expiratory reselve volume

Answer 13

the vol of air that can be maximally exhaled after a normal tidal exhalation
(end tidal to max exhale)

normal: 700 ml in fem
1100 in males

Question 14

does ERV increase or decrease with exrecise and why

Answer 14

it decreases bceause tidal vol increases

Question 15

what is residual vol

Answer 15

vol of gas remaining in the lungs after a forced/maximal exhalation

Question 16

what is the function of residual vol

Answer 16

The residual lung volume is important for helping pulmonary function since it allows the gas exchange between the blood and the alveoli to be uninterrupted even between breaths

prevents fluctuations and variations of the gases and present in the blood and their concentrations during the entire breathing cycle

the residual volume allows the alveoli to remain open between breaths, to allow for continual gas exchange at all times

Question 17

what are the 4 lung capacites

Answer 17

inspiratory capacity
function residual capaicty
vital capacity
total lung capcitty

Question 18

explain inspirtaoty capcity

Answer 18

Inspiratory capacity (IC): The maximum volume that can be inhaled from the end of a normal resting exhalation (IC = VT + IRV).

Question 19

explain functional residual capacity

Answer 19

Functional residual capacity (FRC): The volume of gas remaining in the lungs at the end of a normal resting exhalation (FRC = ERV + RV).

Question 20

explain vital capacity

Answer 20

7. Vital capacity (VC): The greatest volume of gas that can be exhaled by maximal effort after a maximum inhalation (VC = IRV + VT + ERV).

Question 21

explain total lung capacity

Answer 21

8. Total lung capacity (TLC): The volume of gas in the lungs at the time of maximal inhalation. It is the sum of VC and RV (TLC = IRV + VT + ERV + RV).

Question 22

how do you mark off the volumes and capacities on a graph

Answer 22

1) choose the smallest tidal vol before maneuver (but not the first one right before test)
(from end of tidal to end of inhale)

2)

Question 23

in the lung volumes tset, each box is how many liters

Answer 23

0.1 L

Question 24

how do you measure inspiratory server volume off graph

Answer 24

from the end of the tidal inhale all the way to the max inspiration

Question 25

how do you measure expiratory server volume off graph

Answer 25

measure from end of the tidal breath to end of expiration

Question 26

how do you calculate RV

Answer 26

usually just estimated at 1 L

Question 27

what does the forced expirations test measure

Answer 27

dynamic lung volume (allows us to observe air flow, compliance of chest and lungs)

Question 28

what are the 3 exhale cirtearia inn the forced expirations test

Answer 28

1) exhale needs to be quick
2) exhale should be fprceful
3) exhaule sould be held as long as possible

(at least 6 seconds)

Question 29

what are the variables we are measureing in the forced expirations test

Answer 29

1) forced expiratory volume in 1 sec
2) forced vital capacity

3) FEV1/FVC

Question 30

how many times is the forced expiration test completed and how do you know which test to choose

Answer 30

done 3 times but choose the one with the longest duration for exhale

Question 31

explain how to mark the graph for forced expiration test

Answer 31

1) mark time 0 (where exhale begins)
=start where dramatic downslope starts

2) mark 1 sec over to establish FVC
3) mark from the max (the beg of exhale) all the way down to lowest point in exhalation

Question 32

what is considered a normal FEV1.FV ration

Answer 32

greater than 0.7

Question 33

what is considered a low FEV1/FVC ratio

Answer 33

less than or equal to 0.70

Question 34

how do you calculate % preduced FVC

Answer 34

FVC measured/FVC predicted

Question 35

if someone has a normal ratio, and a predicted FVC that is greater or equal to 0.8, what does that indicate

Answer 35

indicates normal FEv1 and normal FVC

Question 36

if someone has a normal ratio, and a predicted FVC that is less than 0.8, what does that indicate

Answer 36

that the FVC only is reduced
(restrictive)
=difficult to expand the lungs (it is a volume limitation)

Question 37

if someone has a low ratio, and a predicted FVC that is less than 0.8, what does that indicate

Answer 37

both FEv1 and FVC are reduced, you have mixed disorders

Question 38

if someone has a low ratio, and a predicted FVC that is equal or greater than 0.8, what does that indicate

Answer 38

only fev1 is reduced
=obstructive
=limiated to flow (harder to expty lungs)

Question 39

know the forced expiration interpretation chart

Answer 39

.

Question 40

what is the main symptoms shared between obstructive and restrictive breathing disorders

Answer 40

dyspnea

Question 41

how can you calculate the severity of the obstruction

Answer 41

calculate the % predicted FEv1

%FEV1 meaured/predicted

Question 42

explain obstructive lung disordderes

Answer 42

they have an airflow limitation caused by some sort of obstruction (sometimes inflammation of airways)
=cannot exhale/push out air quickly
=bad Fev1

Question 43

give some examples of obstructuve lung dieases

Answer 43

COPD
Emphysema
Bronchitis
Asthma
cystic fibrosis

Question 44

epxlain resisttrictive lung disorders

Answer 44

difficult to expand lungs(volume limitation)

=lungs cannot expand well due to compliacne issues (sometimes scar tisse and inflammation)

Question 45

what are some examples of restrictive lung disorders

Answer 45

Obseity
scoliosis
neuromuscular disease
intersitial lung disease

Question 46

If a subject’s VC is in the normal range for his/her

age, size and gender, the subject likely has no BLANK

Answer 46

Pulm disease

Question 47

what is FEV1

Answer 47

the forced expiratory volume in 1 second (FEV1 –

volume that the subject is able to exhale in the first second of the FVC maneuver, expressed in L

Question 48

wha t is FVC

Answer 48

volume of gas that is expired by maximal effort after a maximum inhalation, expressed in L)

Question 49

explain what happens to FEV and FVC in airway obstructions

Answer 49

In conditions where the airways are obstructed (i.e., such as in asthma and chronic obstructive pulmonary disease (COPD), which includes emphysema and chronic bronchitis)
the FVC is normal (> 80%). However, the rate of expiratory flow (and thus the FEV1) is reduced (< 80%)

Question 50

explain what happens to FVC and FEV1 in restrictive diseases

Answer 50

In conditions where the lung volume is reduced (i.e., restrictive diseases such as pulmonary fibrosis, scoliosis, and tuberculosis)
the FVC is compromised (< 80%). However, the FEV1/FVC ratio may be
normal or even greater than normal due to the normal FEV1 value

Question 51

what is the def of MVV (max voluntary ventilation)

Answer 51

It is defined as the maximum volume of air that can be exhaled over a specified period of time
=largst amount of air that can move in and out of lung in one minute)

Question 52

the MVV test provides information on what

Answer 52

measures respirtatory muscle stregnth

=provides info on airway resistance, lung elasticity, lung compliace, and respiratory muscle mechanics

Question 53

what is the goal in terms of breaths/min and vol for the MVV test

Answer 53

90 breaths/min

about 50% of VC

Question 54

how do you extract data for MVV test

Answer 54

mark off center (start of exhale of first maneurveer)
=measureeing all of the exhale volumes up until the last one
(do not inlclue last one that has normal breath)

sum all the volumes and measure the time from begining of first exhale to end of last exhale
=calcualte MVV

Question 55

what does it mean if the MVV graph has a downward trend

Answer 55

person is breathing out more than they are breathinging in

=respiratory muscle fatigue/increase work of breathing

Question 56

what does it mean if MVV graph has upward slope

Answer 56

indicates air trapping

not exhaling as much as inhaling

Question 57

what is the MVV interpresation equation and the norm values

Answer 57

MVV measured / (40 * FEV1 measured)

if ration < 0.80, this indicates MVV is low relative to FEV1, which suggests disease or poor effort