Test Overview
Lung function tests (also called pulmonary
function tests, or PFTs) check how well your lungs work. The tests determine
how much air your
lungs can hold, how quickly you can move air in and
out of your lungs, and how well your lungs put oxygen into and remove carbon
dioxide from your blood. The tests can diagnose lung diseases, measure the
severity of lung problems, and check to see how well treatment for a lung
disease is working.
Other tests—such as residual volume, gas
diffusion tests, body plethysmography, inhalation challenge tests, and exercise
stress tests—may also be done to determine lung function.
Spirometry is the first and most commonly done lung function
test. It measures how much and how quickly you can move air out of your lungs.
For this test, you breathe into a mouthpiece attached to a recording device
(spirometer). The information collected by the spirometer may be printed out on
a chart called a spirogram.
The more common lung function values
measured with spirometry are:
-
Forced vital capacity (FVC). This measures
the amount of air you can exhale with force after you inhale as deeply as
possible.
-
Forced expiratory volume (FEV).
This measures the amount of air you can exhale with force in one breath. The
amount of air you exhale may be measured at 1 second (FEV1), 2 seconds (FEV2),
or 3 seconds (FEV3). FEV1 divided by FVC can also be
determined.
-
Forced expiratory flow 25% to 75%. This measures the air flow halfway through an exhale.
-
Peak expiratory flow (PEF). This measures
how quickly you can exhale. It is usually measured at the same time as your
forced vital capacity (FVC).
-
Maximum voluntary ventilation (MVV). This measures the greatest amount of air you can
breathe in and out during one minute.
-
Slow vital capacity (SVC). This measures the amount of air you can slowly exhale
after you inhale as deeply as possible.
-
Total lung capacity (TLC). This measures the amount of air in your lungs after you
inhale as deeply as possible.
-
Functional residual capacity (FRC). This measures the amount of air in your lungs at the end
of a normal exhaled breath.
-
Residual volume (RV). This
measures the amount of air in your lungs after you have exhaled completely. It
can be done by breathing in helium or nitrogen gas and seeing how much is
exhaled.
-
Expiratory reserve volume (ERV). This
measures the difference between the amount of air in your lungs after a normal
exhale (FRC) and the amount after you exhale with force (RV).
Gas diffusion tests
Gas diffusion tests measure
the amount of
oxygen and other gases that cross the lungs' air sacs (alveoli) per minute.
These tests evaluate how well gases are being absorbed into your blood from
your lungs. Gas diffusion tests include:
-
Arterial blood gases
, which determine
the amount of oxygen and carbon dioxide in your bloodstream.
- Carbon
monoxide diffusion capacity (also called DLCO), which
measures how well your lungs transfer a small amount of carbon monoxide (CO)
into the blood. Two different methods are used for this test. If the
single-breath or breath-holding method is used, you will take a breath of air
containing a very small amount of carbon monoxide from a container while
measurements are taken. In the steady-state method, you will breathe air
containing a very small amount of carbon monoxide from a container. The amount
of carbon monoxide in the breath you exhale is then measured. Diffusing
capacity provides an estimate of how well a gas is able to move from your lungs
into your blood.
Body plethysmography
Body plethysmography may be
used to measure:
- Total lung capacity (TLC), which is the total amount of air
your lungs can hold. For this test, you sit inside a small airtight room called
a plethysmograph booth and breathe through a mouthpiece while pressure and air
flow measurements are collected.
- Residual volume (RV), which is the
amount of air that remains in your lungs after you exhale as completely as
possible. For this test, you sit inside the plethysmograph booth and breathe
while the pressure of the booth is monitored. You may need to breathe through a
mouthpiece while you are in the booth.
Inhalation challenge tests
Inhalation challenge tests are done to measure the
response of your airways to substances that may be causing
asthma or wheezing. These tests are also called
provocation studies.
During
inhalation testing, increasing amounts of a substance are inhaled through a
nebulizer, a device that uses a face mask or mouthpiece to deliver the
substance in a fine mist (aerosol). Sometimes, increasing amounts of methacholine or mannitol may be inhaled through the nebulizer. Spirometry
readings are taken to evaluate lung function before, during, and after inhaling
the substance.
In rare cases, a
bronchospasm can occur with inhalation challenge
testing. You will be closely monitored during and after the test.
Exercise stress tests
Exercise stress tests
evaluate the effect of exercise on lung function tests. Spirometry readings are
done after exercise and then again at rest.
Multiple-breath washout test
The multiple-breath
washout test is done to check lung function in people with cystic fibrosis. For
this test, you breathe air that contains a tracer gas through a tube. Then you
breathe regular air while the amount of tracer gas you exhale is monitored.
Test results are reported as a lung clearance index (LCI). A high LCI value
means that the lungs are not working well.
Lung function results are measured directly in some
tests and are calculated in others. No single test can determine all of the
lung function values, so more than one type of test may be done. Some of the
tests may be repeated after you inhale medicine that enlarges your airways
(bronchodilator).
Why It Is Done
Lung function tests are done to:
- Determine the cause of breathing
problems.
- Diagnose certain lung diseases, such as
asthma or
chronic obstructive pulmonary disease (COPD).
- Evaluate a person's lung function before
surgery.
- Check the lung function of a person who is regularly
exposed to substances such as asbestos that can damage the lungs.
- Check the effectiveness of treatment for lung diseases.
How To Prepare
Tell your doctor if you:
- Have had recent chest pains or a
heart attack.
- Take medicine for a lung
problem such as asthma. You may need to stop taking some medicines before
testing.
- Are allergic to any medicines.
- Have had recent
surgery on your eyes, chest, or abdomen, or if you have had a collapsed lung
(pneumothorax).
Do not eat a heavy meal just before this test because a
full stomach may prevent your lungs from fully expanding. You should not smoke
or exercise vigorously for 6 hours before the test. On the day of the test,
wear loose clothing that does not restrict your breathing in any way. You
should also avoid food or drinks that have caffeine because it can cause your
airways to relax and allow more air than usual to pass through.
If
you have dentures, wear them during the test to help you form a tight seal
around the mouthpiece of the spirometer.
How It Is Done
Lung function tests are usually done in
special exam rooms that have all of the lung function measuring devices. The
test is usually done by a specially trained
respiratory therapist or technician. For most of the
lung function tests, you will wear a nose clip to make sure that no air passes
in or out of your nose during the test. You then will be asked to breathe into
a mouthpiece connected to a recording device.
The exact procedure
is different for each type of test. For example, you may be asked to inhale as
deeply as possible and then to exhale as fast and as hard as possible. You also
may be asked to breathe in and out as deeply and rapidly as possible for 15
seconds. Some tests may be repeated after you have inhaled a spray containing
medicine that expands the airways in your lungs (bronchodilator). You may be
asked to breathe a special mixture of gases, such as 100% oxygen, a mixture of
helium and air, or a mixture of carbon monoxide and air. Sometimes a sample of
blood may be taken from an artery in your wrist to measure blood gases.
If you have body plethysmography, you will be asked to sit inside a small
enclosure similar to a telephone booth, with windows that allow you to see out.
The booth measures small changes in pressure that occur as you breathe.
The accuracy of the tests depends on your ability to follow all of the
instructions. The therapist may strongly encourage you to breathe deeply during
some of the tests to get the best results.
The testing may take
from 5 to 30 minutes, depending upon how many tests are done.
How It Feels
If you have an arterial blood gas test,
you may feel some pain from the needle used to collect the blood. The other
lung function tests are usually painless. Some of the tests may be tiring for
people who have a lung disease.
You may cough or feel lightheaded
after breathing in or out rapidly, but you will be given a chance to rest
between tests. You may find it uncomfortable to wear the nose clip. Breathing
through the mouthpiece for a long period of time may be uncomfortable.
If you have body plethysmography, you may feel uncomfortable in the
airtight plethysmograph booth. But the therapist will be nearby during the test
to open the door if you feel too uncomfortable.
If you are given
breathing medicine, it may cause you to shake or may increase your heart rate.
If you feel any chest pain or discomfort, tell the therapist right away.
Risks
Lung function tests present little or no risk to
a healthy person. If you have a serious heart or lung condition, discuss your
risks with your doctor.
Results
Lung function tests (also called pulmonary
function tests, or PFTs) check how well your lungs work. The normal value
ranges for lung function tests will be adjusted for your age, height, sex, and
sometimes weight and race. Results are often expressed in terms of a percentage
of the expected value. Most test results are available right away.
Normal
Test results are within the normal ranges
for a person with healthy lungs.
Abnormal
Test results are outside of the normal
range for a person with healthy lungs. This may mean that some kind of lung
disease is present. There are two main types of lung disease that can be found
with lung function tests: obstructive and restrictive.
Obstructive
In obstructive lung conditions, the
airways are narrowed, usually causing an increase in the time it takes to empty
the lungs. Obstructive lung disease can be caused by conditions such as
emphysema,
bronchitis, infection (which produces inflammation),
and
asthma.
Lung function values in obstructive disease
| Lung function test |
Result as predicted for age,
height, sex, weight, or race |
|
Forced vital capacity (FVC)
|
Normal or lower than predicted value
|
|
Forced expiratory volume
(FEV1)
|
Lower
|
|
FEV1 divided by FVC
|
Lower
|
|
Forced expiratory flow 25% to 75%
|
Lower
|
|
Peak expiratory flow (PEF)
|
Lower
|
|
Maximum voluntary ventilation (MVV)
|
Lower
|
|
Slow vital capacity (SVC)
|
Normal or lower
|
|
Total lung capacity (TLC)
(VT)
|
Normal or higher
|
|
Functional residual capacity (FRC)
|
Higher
|
|
Residual volume (RV)
|
Higher
|
|
Expiratory reserve volume (ERV)
|
Normal or lower
|
|
RV divided by TLC ratio
|
Higher
|
FEV1 often increases after using medicine that expands
the airways in people with reversible obstructive disease like asthma.
Restrictive
In restrictive lung conditions,
there is a loss of lung tissue, a decrease in the lungs' ability to expand, or
a decrease in the lungs' ability to transfer oxygen to the blood (or carbon
dioxide out of the blood). Restrictive lung disease can be caused by conditions
such as
pneumonia, lung cancer,
scleroderma,
pulmonary fibrosis,
sarcoidosis, or
multiple sclerosis. Other restrictive conditions
include some chest injuries, being very overweight (obesity),
pregnancy, and loss of lung tissue due to surgery.
Lung function values in restrictive disease
| Lung function test |
Result as predicted for age,
height, sex, weight, or race |
|
Forced vital capacity (FVC)
|
Lower than predicted value
|
|
Forced expiratory volume
(FEV1)
|
Normal or lower
|
|
FEV1 divided by FVC
|
Normal or higher
|
|
Forced expiratory flow 25% to 75%
|
Normal or lower
|
|
Peak expiratory flow (PEF)
|
Normal or lower
|
|
Maximum voluntary ventilation (MVV)
|
Normal or lower
|
|
Slow vital capacity (SVC)
|
Lower
|
|
Total lung capacity (TLC)
(VT)
|
Lower
|
|
Functional residual capacity (FRC)
|
Normal or lower
|
|
Residual volume (RV)
|
Normal, lower, or higher
|
|
Expiratory reserve volume (ERV)
|
Normal or lower
|
|
RV divided by TLC ratio
|
Normal or higher
|
What Affects the Test
Reasons you may not be able to
have the test or why the results may not be helpful include:
- Using medicine that expands the lungs' airways
within 4 hours of the test.
- Using
sedatives before the test.
- Eating food or
drinks that contain caffeine before the test.
- Not being able to
breathe normally because of pain.
- Pregnancy, obesity, or an
enlarged stomach (after a large meal, for example).
- Not being able
to follow instructions or make an effort during the tests.
What To Think About
- Spirometry is the most commonly used lung
function test.
- If your spirometry tests are normal but your doctor
thinks you may have
asthma, more tests may be done after you inhale
a substance (methacholine or histamine) that narrows (constricts) your airways.
This is called a bronchoprovocation test. It may be done while you sit in a
small airtight room (plethysmograph booth) similar to a telephone booth. The
amount of narrowing in your airways can help diagnose some conditions. This
testing may take as long as 2 hours.
-
Arterial blood gases (ABGs)
, which determine the amount of oxygen and carbon dioxide in your
bloodstream, may be measured before, during, or after your lung function tests.
For more information, see the topic
Arterial Blood Gases.
- Some lung function
tests can be done at home. For more information, see the topic
Home Lung Function Test.
References
Other Works Consulted
- Chernecky CC, Berger BJ (2008). Laboratory Tests and Diagnostic Procedures, 5th ed. St. Louis:
Saunders.
- Fischbach FT, Dunning MB III, eds. (2009).
Manual of Laboratory and Diagnostic Tests, 8th ed.
Philadelphia: Lippincott Williams and Wilkins.
- Gustafsson PM, et al. (2008). Multiple-breath inert
gas washout and spirometry versus structural lung disease in cystic fibrosis.
Thorax, 63(2): 129–134.
- Pagana KD, Pagana TJ (2010). Mosby’s Manual of Diagnostic and Laboratory Tests, 4th ed. St. Louis: Mosby.
Credits
|
By
|
Healthwise Staff |
|
Primary Medical Reviewer
|
E. Gregory Thompson, MD - Internal Medicine |
|
Specialist Medical Reviewer
|
Mark A. Rasmus, MD - Pulmonology, Critical Care Medicine, Sleep Medicine |
|
Last Revised
|
April 28, 2011 |