Appendix E to Subpart C of Part 197 - Respirator Fit Tests
46:7.0.1.5.30.3.75.18.5 : Appendix E
Appendix E to Subpart C of Part 197 - Respirator Fit Tests
Procedures
This appendix contains the procedures for properly fitting a
respirator to employees who may be exposed to benzene and includes
the Initial Fit Tests (IFT), the Qualitative Fit Tests (QLFT), and
the Quantitative Fit Test (QNFT).
Note that respirators (negative pressure or positive pressure)
must not be worn when conditions prevent a tight seal between the
faceplate and the skin or the proper functioning of the inhalation
or exhalation valves. In order for a respirator to protect the
wearer, the facepiece must make a proper seal against the wearer's
face. Several factors can negatively affect the respirator to face
seal and reduce the level of protection afforded by the respirator.
Among these are facial shape, temple pieces of eyeglasses, facial
abnormalities (e.g., scars and indentations) absence of dentures,
hair style or length of hair, specific skin conditions, and facial
hair. Therefore, nothing can come between or otherwise interfere
with the sealing surface of the respirator and the face or
interfere with the function of the inhalation or exhalation
valves.
I. Initial Fit Tests (IFT)
(a) The test subject must be allowed to select the most
comfortable respirator from a selection of respirators of various
sizes. The selection must include at least three sizes of
elastomeric facepieces for the type of respirator that is to be
tested (i.e., three sizes of half mask or three sizes of
full facepiece).
(b) Before the selection process, the test subject must be shown
how to put on a respirator, how it should be positioned on the
face, how to set strap tension, and how to determine a comfortable
fit. A mirror must be available to assist the subject in evaluating
the fit and positioning the respirator. This instruction is only a
preliminary review and must not constitute the subject's formal
training on respirator use.
(c) The test subject must be informed that he or she is being
asked to select the respirator which provides the most comfortable
fit. Each respirator represents a different size and shape and, if
fitted and used properly, should provide adequate protection.
(d) The test subject must be instructed to hold each facepiece
up to the face and eliminate those facepieces which obviously do
not give a comfortable fit.
(e) The more comfortable facepieces must be noted and the most
comfortable mask donned and worn at least five minutes to assess
comfort. Assistance in assessing comfort may be given by discussing
the points in section I(f) of this appendix. If the test subject is
not familiar with using a particular respirator, the test subject
must be directed to don the mask several times and to adjust the
straps each time to become adept at setting proper tension on the
straps.
(f) Assessment of comfort must include reviewing the following
points with the test subject and allowing the test subject adequate
time to determine the comfort of the respirator:
(1) Position of the mask on the nose.
(2) Room for eye protection.
(3) Room to talk.
(4) Position of mask on face and cheeks.
(g) The following criteria must be used to help determine the
adequacy of the respirator fit:
(1) Chin properly placed.
(2) Adequate strap tension, not overly tightened.
(3) Fit across nose bridge.
(4) Respirator of proper size to span distance from nose to
chin.
(5) Tendency of respirator to slip.
(6) Self-observation in mirror to evaluate fit and respirator
position.
(h) The following negative and positive pressure fit tests must
be conducted. Before conducting a negative or positive pressure fit
test, the subject must be told to seat the mask on the face by
moving the head from side-to-side and up and down slowly while
taking in a few slow deep breaths Another facepiece must be
selected and retested if the test subject fails the fit check
tests.
(1) Positive pressure fit test. The exhalation valve must
be closed off and the subject must exhale gently onto the
facepiece. The face fit is considered satisfactory if a slight
positive pressure can be built up inside the facepiece without any
evidence of outward leakage of air at the seal. For most
respirators this method of leak testing requires the wearer to
first remove the exhalation valve cover before closing off the
exhalation valve and then carefully replacing it after the
test.
(2) Negative pressure fit test. The inlet opening of the
canister or cartridge(s) must be closed off by covering with the
palm of the hand(s) or by replacing the filter seal(s). The subject
must inhale gently so that the facepiece collapses slightly and
hold his or her breath for ten seconds. If the facepiece remains in
its slightly collapsed condition and no inward leakage of air is
detected, the tightness of the respirator is considered
satisfactory.
(i) The test must not be conducted if the subject has any hair
growth between the skin and the facepiece sealing surface, such as
stubble beard growth, beard, or long sideburns which cross the
respirator sealing surface. Any type of apparel, such as a skull
cap or the temple bars of eye glasses, which projects under the
facepiece or otherwise interferes with a satisfactory fit must be
altered or removed.
(j) If the test subject exhibits difficulty in breathing during
the tests, the subject must be referred to a physician trained in
respiratory disease or pulmonary medicine to determine whether the
test subject can wear a respirator while performing his or her
duties.
(k) The test subject must be given the opportunity to wear the
successfully fitted respirator for a period of two weeks. If at any
time during this period the respirator becomes uncomfortable, the
test subject must be given the opportunity to select a different
facepiece and to be retested.
(l) Exercise regimen. Before beginning the fit test, the test
subject must be given a description of the fit test and of the test
subject's responsibilities during the test procedure. The
description of the process must include a description of the test
exercises that the subject must perform. The respirator to be
tested must be worn for at least five minutes before the start of
the fit test.
(m) Test Exercises. The test subject must perform the following
exercises in the test environment:
(1) Normal breathing. In a normal standing position, without
talking, the subject must breathe normally.
(2) Deep breathing. In a normal standing position, the subject
must breathe slowly and deeply, taking caution so as to not
hyperventilate.
(3) Turning head side to side. Standing in place, the subject
must slowly turn his or her head from side to side between the
extreme positions on each side. The subject must hold his or her
head at each extreme momentarily and inhale.
(4) Moving head up and down. Standing in place, the subject must
slowly move his or her head up and down. The subject must be
instructed to inhale in the up position (i.e., when looking
toward the ceiling).
(5) Talking. The subject must talk slowly and loudly enough so
as to be heard clearly by the test conductor. The subject must
count backward from 100, recite a memorized poem or song, or read
the following passage:
Rainbow Passage
When the sunlight strikes raindrops in the air, they act like a
prism and form a rainbow. The rainbow is a division of white light
into many beautiful colors. These take the shape of a long round
arch, with its path high above, and its two ends apparently beyond
the horizon. There is, according to legend, a boiling pot of gold
at one end. People look, but no one ever finds it. When a man looks
for something beyond reach, his friends say he is looking for the
pot of gold at the end of the rainbow.
(6) Grimace. The test subject must grimace by smiling or
frowning.
(7) Bending over. The test subject must bend at the waist as if
to touch the toes or, for test environments such as shroud type
QNFT units which prohibit bending at the waist, the subject must
jog in place.
(8) Normal breathing. Same as exercise 1.
Each test exercise must be performed for one minute, except for
the grimace exercise which must be performed for 15 seconds. The
test subject must be questioned by the test conductor regarding the
comfort of the respirator upon completion of test exercises. If it
has become uncomfortable, another respirator must be tried and the
subject retested.
(n) The employer shall certify that a successful fit test has
been administered to the test subject. The certification must
include the following information:
(1) Name of employee.
(2) Type, brand, and size of respirator.
(3) Date of test.
Where QNFT is used, the fit factor, strip chart, or other
recording of the results of the test must be retained with the
certification. The certification must be maintained until the next
fit test is administered.
II. Qualitative Fit Tests (QLFT)
(a) General. (1) The employer shall designate specific
individuals to administer the respirator qualitative fit test
program. The employer may contract for these services.
(2) The employer shall ensure that persons administering QLFT
are able to properly prepare test solutions, calibrate equipment,
perform tests, recognize invalid tests, and determine whether the
test equipment is in proper working order.
(3) The employer shall ensure that QLFT equipment is kept clean
and maintained so as to operate at the parameters for which it was
designed.
(b) Isoamyl acetate tests. (1) Odor threshold screening
test. The odor threshold screening test, performed without wearing
a respirator, is intended to determine if the test subject can
detect the odor of isoamyl acetate.
(i) Three one-liter glass jars with metal lids must be used.
(ii) Odor free water (e.g. distilled or spring water) at
approximately 25 degrees C must be used for the solutions.
(iii) An isoamyl acetate (IAA) (also known at isopentyl acetate)
stock solution must be prepared by adding one cc of pure IAA to 800
cc of odor free water in a one liter jar and by shaking the jar for
30 seconds. A new solution must be prepared at least weekly.
(iv) The screening test must be conducted in a room separate
from the room used for actual fit testing. The two rooms must be
well ventilated but not connected to the same recirculating
ventilation system.
(v) An odor test solution must be prepared in a second one-liter
jar by placing 0.4 cc of the stock solution into 500 cc of odor
free water using a clean dropper or pipette. The solution must be
shaken for 30 seconds and allowed to stand for two to three minutes
so that the IAA concentration above the liquid may reach
equilibrium. This solution must be used for only one day.
(vi) A test blank must be prepared in a third one-liter jar by
adding 500 cc of odor free water.
(vii) The odor test jar and the test blank jar must be labeled
“1” and “2” for identification. The labels must be placed on the
jar lids so that the labels can be periodically peeled off dried,
and switched to maintain the integrity of the test.
(viii) The following instruction must be typed on a card and
placed on a table in front of the odor test jar and the test blank
jar:
The purpose of this test is to determine if you can smell banana
oil at a low concentration. The two bottles in front of you contain
water. One of these bottles also contains a small amount of banana
oil. Be sure the covers are on tight, then shake each bottle for
two seconds. Unscrew the lid of each bottle, one at a time, and
sniff at the mouth of the bottle. Indicate to the test conductor
which bottle contains banana oil.
(ix) The mixtures in the jars used in the IAA odor threshold
screening must be prepared in an area separate from the test area,
in order to prevent olfactory fatigue in the test subject.
(x) If the test subject is unable to correctly identify the jar
containing the odor test solution, the IAA qualitative fit test
must not be performed.
(xi) If the test subject correctly identifies the jar containing
the odor test solution, the test subject may proceed to respirator
selection and fit testing.
(2) Isoamyl acetate fit test. (i) The fit test chamber must be a
clear 55-gallon drum liner or similar device suspended inverted
over a two foot diameter frame so that the top of the chamber is
about six inches above the test subject's head. The inside top
center of the chamber must have a small hook attached.
(ii) Each respirator used for the fitting and fit testing must
be equipped with organic vapor cartridges or offer protection
against organic vapors. The cartridges or masks must be changed at
least weekly.
(iii) After selecting, donning, and properly adjusting a
respirator, the test subject must wear the respirator to the fit
testing room. This room must be separate from the room used for
odor threshold screening and respirator selection and must be well
ventilated by an exhaust fan, lab hood, or other device to prevent
general room contamination.
(iv) A copy of the test exercises and any prepared text from
which the subject is to read must be taped to the inside of the
test chamber.
(v) Upon entering the test chamber, the test subject must be
given a six inch by five inch piece of paper towel or other porous,
absorbent, single-ply material, folded in half and wetted with 0.75
cc of pure IAA. The test subject must hang the wet towel on the
hook at the top of the chamber.
(vi) Two minutes must be allowed for the IAA test concentration
to stabilize before starting the fit test exercises. This would be
an appropriate time to talk with the test subject, to explain the
fit test, the importance of the subject's cooperation, and the
purpose for the head exercises, or to demonstrate some of the
exercises.
(vii) The test subject must be instructed to perform the
exercises described in section I(n) of this appendix. If at any
time during the test the subject detects the banana like odor of
IAA, the test is failed. The subject must be removed quickly from
the test chamber and the test area to avoid olfactory fatigue.
(viii) If the test is failed, the subject must return to the
selection room, remove the respirator, repeat the odor sensitivity
test, select and don another respirator, return to the test
chamber, and again take the IAA fit test. The process must continue
until a respirator that fits well is found. If the odor sensitivity
test is failed, the subject must wait at least five minutes before
retesting to allow odor sensitivity to return.
(ix) When a respirator is found that passes the test, the
subject must demonstrate the efficiency of the respirator by
breaking the face seal and taking a breath before exiting the
chamber. If the subject cannot detect the odor of IAA, the test is
deemed inconclusive and must be rerun.
(x) When the test subject leaves the chamber, the subject must
remove the saturated towel and return it to the person conducting
the test. To keep the test area from becoming contaminated, the
used towel must be kept in a self-sealing bag to avoid significant
IAA concentration build-up in the test chamber for subsequent
tests.
(c) Saccharin solution aerosol test. The saccharin
solution aerosol test is an alternative qualitative test. Although
it is the only validated test currently available for use with
particulate disposable dust respirators not equipped with
high-efficiency filters, it may also be used for testing other
respirators. The entire screening and testing procedure must be
explained to the test subject before the conduct of the saccharin
test threshold screening test.
(1) Saccharin taste threshold screening test. The test,
performed without wearing a respirator, is intended to determine
whether the test subject can detect the taste of saccharin.
(i) The subject must wear an enclosure about the head and
shoulders that is approximately 12 inches in diameter by 14 inches
tall with at least the front portion clear. If the enclosure is
also used for the saccharin solution aerosol fit test in compliance
with section II(c)(2) of this appendix, the enclosure must allow
free movements of the head when a respirator is worn. An enclosure
substantially similar to the Minnesota, Mining and Manufacturing
(3M) hood assembly, parts No. FT 14 and No. FT 15 combined, is
adequate.
(ii) The test enclosure must have a 3/4 inch hole in front of
the test subject's nose and mouth area to accommodate the nebulizer
nozzle.
(iii) The test subject must don the test enclosure. Throughout
the threshold screening test, the test subject must breathe with
mouth wide open and tongue extended.
(iv) Using a DeVilbiss Model 40 Inhalation Medication Nebulizer,
the test conductor must spray the threshold check solution in
accordance with II(c)(1)(v) of this appendix into the enclosure.
The nebulizer must be clearly marked to distinguish it from the fit
test solution nebulizer.
(v) The threshold check solution consists of 0.83 grams of
sodium saccharin USP in one cc of warm water. It may be prepared by
putting one cc of the fit test solution (see section II(c)(2)(iv)
of this appendix) in 100 cc of distilled water.
(vi) To produce the aerosol, the nebulizer bulb must be firmly
squeezed so that it collapses completely. Then, the bulb must be
released and allowed to expand fully.
(vii) The bulb must be squeezed rapidly ten times and the test
subject must be asked whether he or she tastes the saccharin.
(viii) If the first response is negative, the ten rapid squeezes
must be repeated and the test subject is again asked whether he or
she tastes the saccharin.
(ix) If the second response is negative, ten more squeezes are
repeated rapidly and the test subject again asked whether the
saccharin is tasted.
(x) The test conductor must take note of the number of squeezes
required to solicit a taste response.
(xi) If the saccharin is not tasted after 30 squeezes, the test
subject may not perform the saccharin fit test.
(xii) If a taste response is elicited, the test subject must be
asked to take note of the taste for reference in the fit test.
(xiii) Correct use of the nebulizer means that approximately one
cc of liquid is used at a time in the nebulizer body.
(xiv) The nebulizer must be thoroughly rinsed in water, shaken
dry, and refilled at least each morning and afternoon or at least
every four-hours.
(2) Saccharin solution aerosol fit test. (i) The test subject
may not eat, drink (except plain water), or chew gum for 15 minutes
before the test.
(ii) The fit test must be conducted with the same type of
enclosure used for the saccharin taste threshold screening test in
accordance with section II(c)(1) of this appendix.
(iii) The test subject must don the enclosure while wearing the
respirator selected in the saccharin taste threshold screening
test. The respirator must be properly adjusted and equipped with a
particulate filter(s).
(iv) A second DeVilbiss Model 40 Inhalation Medication Nebulizer
must be used to spray the fit test solution into the enclosure.
This nebulizer must be clearly marked to distinguish it from the
nebulizer used for the threshold check solution in accordance with
section II(c)(1)(iv) of this appendix.
(v) The fit test solution must be prepared by adding 83 grams of
sodium saccharin to 100 cc of warm water.
(vi) The test subject must breathe with mouth wide open and
tongue extended.
(vii) The nebulizer must be inserted into the hole in the front
of the enclosure and the fit test solution must be sprayed into the
enclosure using the same number of squeezes required to elicit a
taste response in the screening test in accordance with sections
II(c)(1)(vi) through II(c)(1)(xi) of this appendix.
(viii) After generating the aerosol, the test subject must be
instructed to perform the exercises in section I(n) of this
appendix.
(ix) Every 30 seconds, the aerosol concentration must be
replenished using one half the number of squeezes used
initially.
(x) The test subject must indicate to the test conductor if, at
any time during the fit test, the taste of saccharin is
detected.
(xi) If the taste of saccharin is detected, the fit must be
deemed unsatisfactory and a different respirator must be tried.
(d) Irritant fume test. The irritant fume test is an
alternative qualitative fit test.
(1) The respirator to be tested must be equipped with
high-efficiency particulate air (HEPA) filters.
(2) The test subject must be allowed to smell a weak
concentration of the irritant smoke before the respirator is donned
to become familiar with the smoke's characteristic odor.
(3) Both ends of a ventilation smoke tube containing stannic
oxychloride, such as the Marine Safety Appliance part No. 5645 or
equivalent, must be broken. One end of the smoke tube must be
attached to a low flow air pump set to deliver 200 milliliters per
minute.
(4) The test subject must be advised that the smoke may be
irritating to the eyes and that the subject must keep his or her
eyes closed while the test is performed.
(5) The test conductor must direct the stream of irritant smoke
from the smoke tube towards the face seal area of the test subject.
The test must be started with the smoke tube at least 12 inches
from the facepiece, moved gradually to within one inch, and moved
around the whole perimeter of the mask
(6) Each test subject who passes the smoke test without evidence
of a response must be given a sensitivity check of the smoke from
the same tube once the respirator has been removed. This check is
necessary to determine whether the test subject reacts to the
smoke. Failure to evoke a response voids the fit test.
(7) The fit test must be performed in a location with exhaust
ventilation sufficient to prevent general contamination of the
testing area by the irritant smoke.
III. Quantitative Fit Tests (ONFT)
(a) General. (1) The employer shall designate specific
individuals to administer the respirator quantitative fit test
program.
(2) The employer shall ensure that persons administering QNFT
are able to properly calibrate equipment, perform tests, recognize
invalid tests, calculate fit factors, and determine whether the
test equipment is in proper working order.
(3) The employer shall ensure that QNFT equipment is kept clean
and maintained so as to operate at the parameters for which it was
designed.
(b) Definitions. (1) Quantitative fit test means a
test which is performed in a test chamber and in which the normal
air-purifying element of the respirator is replaced with a
high-efficiency particulate air (HEPA) filter, in the case of
particulate QNFT aerosols, or with a sorbent offering contaminant
penetration protection equivalent to high-efficiency filters, if
the QNFT test agent is a gas or vapor.
(2) Challenge agent means the aerosol, gas, or vapor
introduced into a test chamber so that its concentration inside and
outside of the respirator may be measured.
(3) Test subject means the person wearing the respirator
for quantitative fit testing.
(4) Normal standing position means an erect and straight
stance with arms down along the sides and eyes looking straight
ahead.
(5) Maximum peak penetration method means the method of
determining test agent penetration in the respirator as determined
by strip chart recordings of the test. The highest peak penetration
for a given exercise is taken to be representative of average
penetration into the respirator for that exercise.
(6) Average peak penetration method means the method of
determining test agent penetration into the respirator by using a
strip chart recorder, integrator, or computer. The agent
penetration is determined by an average of the peak heights on the
graph, or by computer integration, for each exercise except the
grimace exercise. Integrators or computers which calculate the
actual test agent penetration into the respirator for each exercise
also may be used in accordance with this method.
(7) Fit factor means the ratio of challenge agent
concentration outside with respect to the inside of a respirator
inlet covering (facepiece or enclosure).
(c) Apparatus. (1) Instrumentation. Aerosol generation,
dilution, and measurement systems using corn oil or sodium chloride
as test aerosols must be used for quantitative fit testing.
(2) Test chamber. The test chamber must be large enough to
permit all test subjects to perform freely all required exercises
without disturbing the challenge agent concentration or the
measurement apparatus. The test chamber must be equipped and
constructed so that the challenge agent is effectively isolated
from the ambient air, yet is uniform in concentration throughout
the chamber.
(3) When testing air-purifying respirators, the normal filter or
cartridge element must be replaced with a high-efficiency
particulate filter supplied by the same manufacturer.
(4) The sampling instrument must be selected so that a strip
chart record may be made of the test showing the rise and fall of
the challenge agent concentration with each inspiration and
expiration at fit factors of at least 2,000. Integrators or
computers which integrate the amount of test agent penetration
leakage into the respirator for each exercise may be used if a
record of the readings is made.
(5) The combination of substitute air-purifying elements,
challenge agent, and challenge agent concentration in the test
chamber must be such that the test subject is not exposed to a
concentration of the challenge agent in excess of the established
exposure limit for the challenge agent at any time during the
testing process.
(6) The sampling port on the test specimen respirator must be
placed and constructed so that no leakage occurs around the port
(e.g. where the respirator is probed), so that a free air flow is
allowed into the sampling line at all times, and so that there is
no interference with the fit or performance of the respirator.
(7) The test chamber and test set up must permit the person
administering the test to observe the test subject inside the
chamber during the test.
(8) The equipment generating the challenge atmosphere must
maintain a constant concentration of challenge agent inside the
test chamber to within a ten percent variation for the duration of
the test.
(9) The time lag (i.e., the interval between an event and
the recording of the event on the strip chart, computer, or
integrator) must be kept to a minimum. There must be a clear
association between the occurrence of an event inside the test
chamber and the recording of that event.
(10) The sampling line tubing for the test chamber atmosphere
and for the respirator sampling port must be of equal diameter and
of the same material. The length of the two lines must be
equal.
(11) The exhaust flow from the test chamber must pass through a
high-efficiency filter before release.
(12) When sodium chloride aerosol is used, the relative humidity
inside the test chamber must not exceed 50 percent.
(13) The limitations of instrument detection must be taken into
account when determining the fit factor.
(14) Test respirators must be maintained in proper working order
and inspected for deficiencies, such as cracks, missing valves, and
gaskets.
(d) Procedural requirements. (1) When performing the
initial positive or negative pressure test, the sampling line must
be crimped closed in order to avoid air pressure leakage during
either of these tests.
(2) In order to reduce the amount of QNFT time, an abbreviated
screening isoamyl acetate test or irritant fume test may be used in
order to quickly identify poor fitting respirators which passed the
positive or negative pressure test. When performing a screening
isoamyl acetate test, combination high-efficiency organic vapor
cartridges or canisters must be used.
(3) A reasonably stable challenge agent concentration must be
measured in the test chamber before testing. For canopy or shower
curtain type of test units, the determination of the challenge
agent stability may be established after the test subject has
entered the test environment.
(4) Immediately after the subject enters the test chamber, the
challenge agent concentration inside the respirator must be
measured to ensure that the peak penetration does not exceed five
percent for a half mask or one percent for a full facepiece
respirator.
(5) A stable challenge concentration must be obtained before the
actual start of testing.
(6) Respirator restraining straps must not be overtightened for
testing. The straps must be adjusted by the wearer without
assistance from other persons to give a fit reasonably comfortable
for normal use.
(7) After obtaining a stable challenge concentration, the test
subject must be instructed to perform the exercises described in
section I(n) of this appendix. The test must be terminated whenever
any single peak penetration exceeds five percent for half masks and
one percent for full facepiece respirators. The test subject must
be refitted and retested. If two of the three required tests are
terminated, the fit is deemed inadequate.
(8) In order to successfully complete a QNFT, three successful
fit tests must be conducted. The results of each of the three
independent fit tests must exceed the minimum fit factor needed for
the class of respirator (e.g., half mask respirator, full facepiece
respirator).
(9) Calculation of fit factors. (i) The fit factor must be
determined for the quantitative fit test by taking the ratio of the
average chamber concentration to the concentration inside the
respirator.
(ii) The average test chamber concentration is the arithmetic
average of the test chamber concentration at the beginning and of
the end of the test.
(iii) The concentration of the challenge agent inside the
respirator must be determined by one of the following methods:
(A) Average peak concentration.
(B) Maximum peak concentration.
(C) Integration by calculation of the area under the individual
peak for each exercise. This includes computerized integration.
(10) Interpretation of test results. The fit factor established
by the quantitative fit testing must be the lowest of the three fit
factor values calculated from the three required fit tests.
(11) The test subject must not be permitted to wear a half mask
or a full facepiece respirator unless a minimum fit factor
equivalent to at least ten times the hazardous exposure level is
obtained.
(12) Filters used for quantitative fit testing must be replaced
at least weekly, whenever increased breathing resistance is
encountered, or whenever the test agent has altered the integrity
of the filter media. When used, organic vapor cartridges and
canisters must be replaced daily or whenever there is an indication
of a breakthrough by a test agent.