Spirometry Mod 2

Question 1

What is Spirometry?

• What values are observed?

Answer 1

Measures how an individual inhales and exhales volumes of air

• Measures Flow and Volume to Time (secondary)
• Spirometry is done fast (FVC)
• Slow flow is indicative of IC and VC

Question 2

What does Spirometry measure?

Answer 2

1. The function of the muscles of breathing
2. Gas flow in and out of the lungs

Question 3

What is being assessed in terms of muscle function from spirometry testing ?

Answer 3

• Diaprhagm, thoracic muscles
• Capability to expand and contract the thorax

Question 4

What is being assessed in terms of Gas flow of the lungs from spirometry testing?

Answer 4

• Airway patency
• OBstructions to flow

Question 5

What are 3 phases of Forced Vital Capacity (FVC)?

Answer 5

1. Maximal inspiration
2. Blast of exhalation
3. Continued exhalation until end of test

Question 6

What are the procedures for FVC?

• ATS guidlines…

Answer 6

1. Prepare the subject
2. Wash hands
3. Instruct and demonstrate the test
4. Perform Maneuverer (closed circuit method)

Question 7

What is the maximum accepted leak value before beginning the test?

Answer 7

BEV <5% of FVC or 0.100 L; whichever is greater

Question 8

What is the Acceptability and Usability criteria for Spirometry testing?

• 10 categories
• Add the specific ones outside of the table (slide 16)

Answer 8

Question 9

How many attempts do you have at acquiring a usable test result

Answer 9

7-8 before test may be biased to pt fatigue

• aim for usable results rather than perfect acceptability

Question 10

What does the between manoeuvre criteria (test) measure/performed/need to be met?

• (slide 24)

Answer 10

Ensures repeatable; of the 3 tests;

• the 2 largest values of FVC and FEV1 must be within 0.150 L of each other.
• The further the amount in litres, the lower the grade

Question 11

How much of the FVC is blown out in the 1st second of the FEV1 (2 and 3 as well)

Answer 11

80% of air should be blown out within the 1st sec

Question 12

What FVC results are reported to the doctor?

Answer 12

Largest FVC and FEV1

• Need at least 3 FVC to meet acceptability criteria

Question 13

What is the Grading system for FEV1 and FVC

• i.e A-F

Question 14

What is FEV1% also referred to as?

Answer 14

FEV1/FVC

Question 15

On a flow volume loop; what points would the pt display effort dependant portion vs effort independant portion ?

• Slide 37

Question 16

How does VC and IC test procedure differ from FVC tests?

Answer 16

Less forceful and effort needed

• usually performed before FVC because FVC could fatigue the pt before this test
• Still uses 3 tests
• Slow inhale and exhale flow rate
• tests TLC and RV? -> helps identify air trapping

Question 17

Between manoeuvre evaluation for VC and IC?

Answer 17

Difference between largest and second largest manoeuvres should be no more than 150ml

• rest period of > 1 min between tests
• Needs 3 manoeuvres

Question 18

What does Maximum Voluntary Ventilation (MVV) assess?

Answer 18

Used for exercise tolerance testing

• The max volume of air a subject can move in and out in the lungs in a specific period of time (within 12 sec)
• A alt if Spirometry testing is not viable (cannot test FEV1)

Question 19

slide 70

Answer 19

We want their Vt to me half of VC?

Question 20

What is differentiates upper and lower airway obstruction?

Answer 20

If the issue is derived above or below the carina

• If there’s time; break this table into other cards

Question 21

What is Forced vital capacity (FVC)?

Answer 21

Max effort, rapid exhalation of VC

• validity = 3 maneuver variation <5%

Question 22

How do airway obstructions affect FVC?

Answer 22

Airway obstructions = Increased airway resistance

• FVC exhalation requires more time due to decreased flow rate
• FVC test will have a 1 sec lag before flow starts regulating

Question 23

How do Restrictive diseases affect FVC

Answer 23

Restrictive diseases typically infer low lung compliance and therefore limited lung expansion

• Small FVC exhaled quickly

Question 24

What is the difference between FVC and FEVx?

Answer 24

Both are measures associated with volume-time measurements

1. FVC = total forced exhalation of vital capacity
2. FEV = Forced expiratory volume per time (x)

Question 25

What is FEF (25-75*)

Answer 25

Forced expiratory flow
during middle half of FVC

• Dependent on the FVC
• Flow is from the medium to small airways

Question 26

What information can you gather from FVC tests?

Answer 26

Helps reveal obstructive and restrictive conditions.

• Assess volumes + ability of Pt to forcefully exhale

Question 27

What is the optimal test to assess restrictive conditions?

Answer 27

Slow vital capacity (SVC)

Question 28

What information can Maximum Minute
Ventilation (MVV) testing provide and why do we use it?

Answer 28

Amount of air able subject can move in and out of the lungs over a specified period of
time.

• Used for obstructive disorders, can be a substitute for FEV1. (But FEV1 is
  preferred).
• Used when FEV1 is unattainable (FVC procedure too difficult to coordinate)

Question 29

Main pulmonary characteristics of Obstructive Disease

Answer 29

Decreased Expiratory flow caused.

• High airway resistance will increased WOB

Question 30

Main pulmonary characteristic of restrictive disease

Answer 30

Decreased volumes and capacities.

Decreased chest wall compliance (or lower lung compliance) will lead to increased WOB

Question 31

Add this table later

Answer 31

Question 32

What is EOFE?

Answer 32

End of Forced Exhalation

Question 33

what is considered a
good Spirometry test?

Answer 33

Back Extrapolated Volume (BEV)

• Determines true start of test time
• Ensures accurate time zero for other measurements such as FEV1
• BEV must be <5% of FVC or 100 mL; whichever is greater

Question 34

What is the max cut off time for 1 test/attempt?

Answer 34

15 seconds

Question 35

Aside from accurate volumes; what other between maneuver criteria should be met before termination of testing

Answer 35

A total of 8 tests have been performed (max)

• fatigue can affect results
• Pt may tire and may not be safe to perform more testing

Question 36

What information if measured and used when assessing FEV?

Answer 36

FEV1, FEV2, and FEV3 (forced exhalation within 1-3 seconds) is measured.

• FEV1 is the most important -> 80% of volume should be blown out here

Question 37

What is PEF

Answer 37

Peak expiratory flow

• on a flow volume loop; it’d be the peak

Question 38

When determining the largest FVC and largest FEV1; which manoeuvres should be selected?

Answer 38

The largest sum of FVC+FEV1 to determine other indices

Question 39

How do you identify a obstructive condition via FVC interpretation?

Answer 39

If the FEV1 <80 is classified as having obstructive disease

• FVC less than predicted would also support this
• Lung volumes may be indicated
• Bronchodilators?
• FEF 25-75% is less than 60% predicted

Question 40

How can you identify a restrictive condition via FVC interpretation?

Answer 40

FEV/FVC is less than 0.80

• FVC and FEV1 are proportionally reduced
• lung volumes and/or muscle pressures may be indicated.

Question 41

what advantage can Flow Volume Loops (FVL) have over FVC testing?

Answer 41

Detecting upper airway obstructions

• you need to see the maximal inspiration flows to determine upper airway involvement

Question 42

Test procedures for FVL?

Answer 42

Pt performs full inspiratory and expiratory maneuver in the same test

• slow full inspiration to TLC
• Forced complete expiration w/max force until no more gas can be expelled
• Quick max inspiration, end of tes

Question 43

Complete slide 28
–>Grading system

Left off @ slide 34 (within manuever critera for FVL)

Answer 43

Question 44

What could be a factor as to why FEV1% is less than predicted?

Answer 44

Obstruction could be present

• FEV1% < 80% is classified as having obstructive disease

Question 45

What could be implied if FVC and FEV1 are both reduced proprtionally?

• what do you do about it?

Answer 45

A restriction may be present

• lung volumes/muscle pressure may be indicated

Question 46

What is implied if FEV1 and FVC are less than predicted but are not proritonally reduced?

Answer 46

Obstruction may be present

Question 47

What is a normal FVC/FEV1?

Answer 47

FVC/FEV1 normal > 0.80

Question 48

What could be implied if FEF 25-75% is less than 65% of normal, assuming FEV1 is borderline normal?

Answer 48

Airway obstruction may be present

• Remember FEF is dependent on FVC since it is a measure of the middle of a FEV

Question 49

What measure is reported from FEF 25-75%?

Answer 49

The highest sum of FVC and FEV1 measured from test

Question 50

What measure is reported for FEV1/FVC?

Answer 50

Calculated from the largest FEV1 and FVC that was reported

Question 51

Question 52

What advantage do Flow Volume Loops (FVL) have over Maximal expiratory flow volume loops and FVC?

Answer 52

Not much, but FVL is better at detecting upper airway obstructions

• you need to see max inspiratory flows to determine upper airway involvement

Question 53

Flow Volume Loop (FVL) test procedure?

Answer 53

Test subject performs a full inspiratory and expiratory maneuver in the same test

1. Slow full inspiration to TLC
2. Forced complete expiration with max force until no more gas can be expelled
3. quick max inspiration
4. End test

Question 54

FVL within maneuver criteria

Answer 54

Same as FVC; add slide 34

Question 55

Question 56

What does it mean when a breath is effort independent?

Answer 56

No further increase in Pt. effort will increase flow.

• Flow in this area is influenced by dynamic compression of the airway aka equal pressure point
• Think of when you continue to exhale past your breathe
• Changes in the lower portion of the loop can be either due to elastic recoil or resistance in the small airways

Question 57

Break this card up: Variations in FVL w/pathologies

Question 58

What can be suspected if the FVL does not have a sharp rise to PEF?

Answer 58

Large airway obstruction or patient effort

Question 59

What can be suspected from a concave (inward) curve from PEF?

Answer 59

Airway obsturction

Question 60

When could you suspect hyperactive airways from a FVL?

Answer 60

If PEF and PIF values arent consistent?

• But if PEF or other expiratory flows fall with repeated effort

Question 61

What can be suspected if the inspiratory curve isn’t reproducible?

Answer 61

Variable effort or fatigue

Question 62

What can a sawtooth breath pattern be caused by?

Answer 62

Abnormality of the muscular control of th e posterior pharynx and larynx (usually w/sleep apnea)

• There would be sudden changes in reproducibility for this

Question 63

What is the difference between VC/IC maneuvers and FVC?

Answer 63

VC/IC are both done slowly to obtain the maximal air movement between inspiration and exhalation

• unforced except when at RV or TLC where some effort is needed

Question 64

When should VC and IC tests be conducted?

Answer 64

Prior to a FVC, possible fatigue or air trapping less likely to occur

Question 65

Why are VC and IC tests at risk of producing misleading values?

Answer 65

After max inspiratory efforts, pts with obstructive disease can return a falsely high FRC or RV due to air trapping

Question 66

How maneuvers is optimal for a good upper limit test for VC and IC procedures?

Answer 66

4 maneuvers

Question 67

VC and IC test procedure

Answer 67

Flow should be constant throughout

1. Have the pt. breath normally for 3-4 breaths, establishing a good baseline
2. Pt exhales completely to RV
3. Inhales to maximal TLC (slowly)
4. Slowly exhale to RV again

Question 68

Why do VC and IC tests need constant and slow breaths?

• aka what is it testing for?

Answer 68

Needed to grab a accurate IC and ERV

Question 69

Reported results for VC and IC procedures?

Answer 69

• Largest values from at least 3 acceptable maneuvers for VC
• The average of at least 3 acceptable maneuvers for IC

Question 70

What is Peak Expiratory Flow (PEF)?

Answer 70

Highest flow achieved from a max forced expiratory maneuver started from a position of max lung inflation

Question 71

Why variables could affect the accuracy of Peak Expiratory Flow (PEF)?

Answer 71

PEF are effort and lung volume dependant

• posture and neck position could scew results
• Hesitation in blow (>2) can decrease PEF by as much of 10%

Question 72

How many maneuvers should be performed on a PEF?

Answer 72

3 efforts of 1-3 seconds expiratory breaths

Question 73

Acceptability criteria for PEF?

Answer 73

Slide 58

Question 74

How often should PEF be monitored?

Answer 74

BID Morning and evening

• over 2-3 weeks
• PR best seen in the evening after max therapy (daily measures compared to against the PR)

Question 75

PEF of 80-100% of PB suggest

Answer 75

Routine treatment can continue

• consider reducing meds

Question 76

PEF of 50-80% of PB suggests

Answer 76

Acute exacerbation may be present. temporary increase in med may be indicated

• maintain therapy may need to be increased

Question 77

PEF of < 50% of PB suggests

Answer 77

Bronchodilators should be taken immediately

• clinician should be notified if PEF fails to return to yellow or green

Question 78

Peak flow device recommendations for Adults

Answer 78

ATS recommends 100-850 L/min

• +/- 10 or 20 L/min

Question 79

Peak flow device recommendations for Pediatrics

Answer 79

ATS recommends a 60 – 400 L/min range

• 10% or 20L/min

Question 80

What is Maximum Voluntary Ventilation (MVV)?

Answer 80

Max volume of air a subject can move in and out of the lungs in a specific period of time, usually 12 sec

• FEV1 is considered the more valuable value

Question 81

What could be suspected if there is a disproportionate decrease in MVV compared to FEV1?

Answer 81

Possible neuromuscular disorder

Question 82

What secondary purpose could MVV have?

Answer 82

Estimate ventilatory reserve during cardiopulmonary exercise testing

Question 83

Test procedure for MVV

Answer 83

1. Subject should be sitting (can make the subject very dizzy)
2. Subject should be wearing nose clips
3. Subject breaths normally at rest for at least three tidal breaths
4. Then breathing as rapidly and deeply as possible

Question 84

How long should test intervals be for MVV?

Answer 84

normally 12 secs

Question 85

Ideal respiratory rate for MVV?

Answer 85

90-110 breaths/min

Question 86

What variables could scew the results of a MVV?

Answer 86

Changes in RR or Vt during maneuver

Question 87

within maneuver evaluation for MVV?

Question 88

Between Maneuver evaluation for MVV?

Question 89

Test results selection for MVV

Answer 89

Highest MVV and MVV rate should be reported

• MVV/(40*FEV1) should be > 0.80
• lower suggests poor effort or disease

Question 90

How long should a MVV test be run for?

Answer 90

At least 12 secs