Catalogue Number C-U 5
URINE
REAGENT STRIPS
(8 PARAMETER)
pH, Glucose, Protein, Ketone,
Bilirubin, Blood, and Urobilinogen
INTENDED USE:
Urine reagent strips- 8 parameters (C-U 5 ) for Urinalysis
are firm plastic strips to which are affixed several
separate reagent areas. Urine reagent strips provide tests
for the semi-quantitative determinations of pH, protein,
glucose, ketone, bilirubin, blood, nitrite, and urobilinogen
in urine. Test results may provide information regarding
the status of carbohydrate metabolism, kidney function,
liver function, acid-base balance, and bacteriurea.1,2
summary and explanation:
The reagent test areas of urine reagent
strips are ready to use upon removal from the bottle.
The entire reagent strip is disposable. No
additional laboratory equipment is necessary for testing.
The directions must be followed exactly. Accurate
timing is essential to provide optimal results. The
reagent strips must be kept in the bottle with the cap
tightly closed (as specified on the cap) to maintain reagent
reactivity. To
obtain optimal results, it is necessary to use fresh,
well-mixed, and uncentrifuged urine.
TEST PRINCIPLES
pH: This
test is based on a double indicator principle that gives a
broad range of colors covering the entire urinary pH range.
Colors range from orange through yellow and green to blue.
Protein: This
test is based on the protein error-of-indicators principle.
At a constant pH, the development of any green color is due
to the presence of protein. Colors range from yellow
for "Negative" through yellow-green and green to
green-blue for "Positive" reactions.
Glucose: This test is based on a double sequential enzyme reaction.
One enzyme, glucose oxidase, catalyzes the formation of
gluconic acid and hydrogen peroxide from the oxidation of
glucose. A second enzyme, peroxidase, catalyzes the
reaction of hydrogen peroxide with a potassium iodide
chromogen to oxidize the chromogen to colors ranging from
green to brown.
Ketone:
This test is based on
the reaction between acetoacetic acid with nitroprusside.
The colors range from buff-pink, for a "Negative" reading to
purple.
Bilirubin:
This test is based on the coupling of bilirubin with
diazotized dichloroaniline in a strongly acid medium.
Blood: This test is based on
the peroxidase-like activity of hemoglobin which catalyzes
the reaction of cumene-hydroperoxide and 3,3',5,5'
tetramethylbenzidine. The resulting color ranges from
orange through green to dark blue.
Nitrite:
This test depends upon the conversion of nitrate to nitrite
by the action of gram negative bacteria in the urine. The
nitrite reacts with p-Arsanilic acid to form a diazonium
compound in acid medium. The diazonium compound in turn
couples with 1,2,3,4-tetrahydrobenzo(h)quinolin to produce a
pink color.
Urobilinogen: This tests is
based on the Ehrlich reaction in which
p-dimethylaminobenzaldehyde reacts with urobilinogen in a
strong acid medium to produce a brown-orange color.
REAGENTS: (Based
on dry weight at time of impregnation)
pH:
0.2% w/w methyl red; 2.8%
w/w bromthymol blue; 97% w/w nonreactive ingredients.
Protein:
0.3%
w/w tetrabromphenol blue; 99.7% w/w buffer and nonreactive
ingredients.
Glucose: 16.3% w/w
glucose oxidase (Aspergillus niger, 1.3 IU); 0.6% w/w
peroxidase (Horseradish, 3300 IU); 7.0% w/w of potassium
iodide; 76.1% w/w buffer and nonreactive ingredients.
Ketone: 7.1% w/w sodium
nitroprusside buffer balanced with buffer and nonreactive
ingredients.
Bilirubin: 0.4% w/w
2,4-dichloroaniline diazonium salt, balanced with buffer and
nonreactive ingredients
Blood:
22.5% w/w cumene
hydroperoxide, balanced with buffer and nonreactive
ingredients
Nitrite:
1.4% w/w
p-Arsanilic acid, balanced with buffer and nonreactive
ingredients
Urobilinogen: 2.9% w/w
p-dimethylaminobenzaldehyde, balanced with buffer and
nonreactive ingredients
WARNINGS AND
PRECAUTIONS: Urine reagent strips are for in vitro
diagnostic use.
STORAGE:
Store at temperature
between 4 - 30°C (39 - 86° F) and out of direct sunlight.
Do not use after expiration date.
RECOMMENDED HANDLING
PROCEDURES: All unused strips must remain in the original
bottle. Transfer to any other container may cause reagent
strips to deteriorate and become unreactive. Do not remove
desiccant(s) from bottle.
SPECIMEN COLLECTION AND
PREPARATION:
Collect urine in a clean container
according to NCCLS GP16-T guideline and test as soon as
possible. If testing cannot be done within an hour after
voiding, refrigerate the specimen immediately and let it
return to room temperature before testing. Prolonged
exposure of unpreserved urine to room temperature may result
in microbial proliferation with resultant changes in pH. A
shift to alkaline pH may cause false positive results with
the protein test area. Urine containing glucose may
decrease in pH as organisms metabolize the glucose.
Contamination of the urine
specimen with skin cleansers containing chlorhexidine may
affect protein test results. The user should determine
whether the use of such skin cleansers is warranted.
MATERIALS PROVIDED:
1. 1 bottle
containing 100 C-U 5 urine reagent strips.
2. A visual color
chart for reading results is printed on the bottle.
MATERIALS REQUIRED BUT
NOT PROVIDED:
1. A timer capable of
reading accurately in seconds.
2. A visual color
chart for reading results is printed on the bottle.
3. It is also
recommended that commercial control products be used for
quality control checks.
PROCEDURE: MUST BE
FOLLOWED EXACTLY TO ACHIEVE RELIABLE TEST RESULTS.
1. Remove one strip
from bottle and close the cap immediately. Completely
immerse reagent areas of the strip in FRESH urine and remove
immediately to avoid dissolving out reagents.
2. While removing, run
the edge of the strip against the rim of the urine container
to remove excess urine. Hold the strip in a horizontal
position to prevent possible mixing of chemicals from
adjacent reagent areas and/or soiling of hands with urine.
3. Compare reagent
areas to corresponding color chart on the bottle label at
the time specified. HOLD STRIP CLOSE TO COLOR BLOCKS AND
MATCH CAREFULLY.
QUALITY
CONTROL: For best results, performance of reagent
strips should be confirmed by testing known negative and
positive specimens or control whenever a new test is
performed or whenever a new bottle is first opened.
Negative and positive specimens or controls may also be
randomly hidden in each batch of specimens tested. Each
laboratory should establish its own goals for adequate
standards of performance, and should question handling and
testing procedures if theses standard are not met.
RESULTS:
Results are obtained by direct
comparison of the color blocks printed on the bottle label.
LIMITATIONS OF
PROCEDURE:
pH:
If proper procedure is not followed and excess urine remains
on the strip, a phenomenon known as "runover" may occur, in
which the acid buffer from the protein reagent will run onto
the pH area, causing a false lowering in the pH result.
Protein: False
positive results may be obtained with highly buffered or
alkaline urine. Contamination of the urine specimen
with quaternary ammonium compounds may also produce false
positive results.
Glucose: Large amounts of ketone bodies (50 mg/dl or greater) may decrease color
development. However, it is unlikely that the presence of
ketones simultaneously with glucose in the urine is
sufficient to produce false negative results. At glucose
levels of 1 g/dl or greater, the color may appear somewhat
mottled. The darkest color should be used in interpreting
results with the color chart. The reactivity of the glucose
test decreases as the SG of the urine increases. Reacttivity may also vary with temperature.3
Ketone:
Color reaction that
could be interpreted as "positive" may be obtained with
urine specimens containing MESNA or large amounts of
phenylketones or
L-dopa metabolites.3
Bilirubin: Reactions
may occur with urine specimens containing large doses of
chlorpromazine or rafampen which might be mistaken for
positive bilirubin.3
Blood:
the sensitivity of
the blood test is reduced in urine with high specific
gravity and/or high ascorbic acid content. Microbial
peroxidase, associated with urinary tract infection, may
cause a false positive reaction.
Nitrite Test: The pink color
is not quantitative in relation to the number of bacteria
present. Any degree of pink coloration should be
interpreted as a positive nitrite test suggestive of 105
or more organisms/ml. There are occasional urinary tract
infection from organisms which do not contain reductase to
convert nitrate to nitrite.
Urobilinogen: The test area
will react with interfering substances known to react with ehrlich's reagent, such as porphobilinogen and
p-aminosalicylic acid.3
The test is not a reliable method for the detection of
porphobilinogen. Drugs containing azo-dyes (e.g., Azo
Gantrisin) may give a masking golden color. The absence of
urobilinogen cannot be determined with the product.
EXPECTED VALUES:
pH:3
newborn: 5 - 7
thereafter: 4.5 - 8
average: 6
Protein:
In 24 hours urine, 1-14 mg of protein in 1 dL of urine may
be excreted by the normal kidney.4 A
color matching any block greater than Trace indicated
significant proteinuria. For urine of high specific
gravity, the test area may most closely match the trace
color block even though only normal concentrations of
protein are present. Clinical judgment is needed to
evaluate the significance of trace results.
Glucose:
Small amount of
glucose are normally excreted by the kidney.5
Concentrations of as little as 0.1 g/dl glucose, read either
at 10 or 30 seconds, may be significantly abnormal if found
consistently. At 10 seconds, results should be interpreted
qualitatively; i.e., negative or positive. for
quantitation, read at 30 seconds only.
Ketone: Normally no ketones
are present in urine. Detectable levels of ketone may occur
in urine during physiological stress conditions such as
fasting, pregnancy, and frequent strenuous exercise.6-8
In starvation
diets, or in other abnormal carbohydrate metabolism
situation, ketones appear in the urine in excessively large
amounts before serum ketones are elevated.9
Bilirubin: Normally no
bilirubin is detectable in urine by even the most sensitive
methods. Even trace amounts of bilirubin are sufficiently
abnormal to require further investigation. Atypical colors
(colors produced which are different than the negative or
positive color blocks shown on the Color Chart) may indicate
that bilirubin derived bile pigments are present in the
urine sample and are possibly masking the bilirubin
reaction.
Blood:
Any blue spots or blue
color developing on the reagent area within 40 seconds is
significant and the urine should be examined further. Blood
is frequently, but not invariably, found in the urine of
menstruating females.
Nitrite: Normally no
detectable amount of nitrite is present in urine.3
The nitrite area will be positive in a proportion of cases
of significant infection, depending on how long the urine
specimens were retained in the bladder prior to collection.
Retrieval of positive cases with the nitrite test range from
as low as 40% in instances where little bladder incubation
occurred, to as high as approximately 80% in instances where
a minimum of 4 hours incubation occurred.
Urobilinogen: In
a healthy population, the normal urine urobilinogen range
obtained with this test is 0.1 to 1.0 Ehrlich unit per dl.
SPECIFIC PERFORMANCE
CHARACTERISTICS:
The performance
characteristics of C-U 5 urine reagent strips have been
determined both in the laboratory and in clinical tests.
Parameters of importance to the user are sensitivity,
specificity, accuracy and precision. Generally, this test
has been developed to be specific for the constituent to be
measured with the exception of interferences listed
previously (see LIMITATIONS OF PROCEDURE).
For visually read strips,
accuracy is a function of the manner in which the color
blocks on the bottle label are determined and the
discrimination of the human eye in reading the test.
Precision is difficult to assess in a test of this type
because of the variability of the human eye. It is for this
reason that users are encouraged to developed their own
standards of performance.
The following table lists
% agreement in laboratory comparison study between Teco's
C-U 5 and Ames' N-Multistix, using 76 samples.
Reagent
Parameter
% Agreement
pH
96%
Protein
97%
Glucose
96%
Ketone
96%
Bilirubin
97%
Blood
95%
Nitrite
100%
Urobilinogen
97%
*Those
samples that produced different results were off by no
greater than one color block.
Sensitivity:
pH Test: The pH test
area permits quantitative differentiation of pH values to
one unit within the range of 5 - 9. pH readings are not
affected by variation in the urinary buffer concentration.
Protein Test:
Quantitative
results are obtained from this test area. 5 to 20 mg of
albumin per dl urine may be detected as a "Trace" result.
The test area is more sensitive to albumin than to globulin,
hemoglobin, and mucoprotein; a negative result, therefore,
does not rule out the presence of these other proteins.
Glucose Test:
This
reagent test area may be read at 10 seconds for qualitative
results or 30 seconds for quantitative results. The test is
specific for glucose; no substance excreted in urine other
than glucose is known to give a positive result. The
reagent area does not react with lactose, galactose,
fructose, nor reducing metabolites of drugs; e.g.,
salicylates and nalidixic acid. This test may be used to
determine whether the reducing substance found in urine is
glucose. Approximately 0.1 g of glucose per dl or urine is
detectable.
Ketone Test:
The ketone test area provides semi-quantitative results
(small, moderate, and large) and reacts with acetoacetic
acid in urine. It does not react with beta-hydroxybutyric
acid or acetone. The reagent area detects as little as 5 to
10 mg acetoacetic acid per dl of urine.
Bilirubin Test:
The test has a sensitivity of 0.2 - 0.4 mg bilirubin/dl.
The test is considered specific for bilirubin in urine.
Blood Test: At the time of
reagent manufacture, the test when read as instructed has a
sensitivity to free hemoglobin of 0.015 mg/dl or 5 intact
red blood cells/ul in urines with a specific gravity and
ascorbic acid content. The test is slightly more sensitive
to free hemoglobin and myoglobin than to intact
erythrocytes.
Nitrite test:
At the time of reagent manufacture, the test
has a sensitivity to sodium nitrite of 0.075 mg/dl in urine
having low specific gravity and less than 5 mg/dl ascorbic
acid. Comparison of the reacted reagent are on a white
background may aid in the detection of these low levels
which may otherwise be missed. The test is specific
for
