1111.docx

Transcript

Blood ammonia levels increase fast at room temperature because of in
vitro amino acid breakdown. Therefore, a whole blood ammonia specimen
must be placed in an ice slurry, quickly transported to the lab,
separated from the cells, and quickly tested.

A serum or plasma specimen should be centrifuged within 2 hours of
collection. Prolonged plasma/serum contact with the cells increases the
possibility of altered analyte levels, intracellular changes, and
hemolysis.

Rimming the clot in a serum collection tube can cause contamination due
to aerosols and hemolyze the specimen. It should be avoided.

Freezing and thawing a blood specimen multiple times can hemolyze the
red blood cells, affecting the lab results.

Glucose is utilized by red blood cells even after blood collection.
Therefore, the glucose levels will decline over time if left standing
for extended periods of time. Glycolysis reduces serum glucose at a rate
of 5% to 7% per hour (5-10 mg/dL) in normal uncentrifuged coagulated
blood stored at room temperature. Therefore, the blood should be
centrifuged and the cells and serum separated within two hours of
collection to prevent changes in serum constituents.

EDTA whole blood tubes that are used for hematology tests, such as CBCs,
can safely be stored at room temperature for up to 24 hours without
adversely affecting results. The specimen can then be refrigerated for
up to 48 hours before testing. Longer storage may affect some CBC test
results.

Serum or plasma should not remain at room temperature (20-25°C) for a
prolonged period of time, as this may adversely affect test results. If
testing is not completed within eight hours, serum and plasma specimens
should be refrigerated at 2-8°C, and if held longer than 48 hours, the
plasma or serum specimen should be frozen at or below -20°C.

Specimens that have been frozen should only be thawed once before
testing in order to prevent possible deterioration of analytes and
inaccurate patient test results.

Vitamin B12, bilirubin (total and direct), beta carotene, and folate all
break down in the presence of light. A light-sensitive specimen should
be collected in a special amber-colored tube or, if such tube is not
available, in a tube wrapped up in aluminum foil,

03C, PT, and creatinine are not affected by light.

Hgb Mc, magnesium, and potassium are not affected by light. **Time**

The specimen should not be delayed for more than two hours prior to
centrifugation because some of the analyte levels (such as glucose,
ionized calcium, bicarbonate, folate, etc.) may be falsely decreased due
to cellular consumption or falsely increased (such as potassium, ALT,
AST, creatinine, etc.) because they are released over time from cells
into serum or plasma.

Prolonged contact of serum with red blood cells can alter the results of
some tests that use a serum sample. A potassium result could be
significantly increased depending on the length of time that the serum
remained **in** contact with the blood cells. The majority of potassium
in the blood is contained within red cells. Continued contact with the
red blood cells would allow potassium from the cells to leak into the
serum portion. A gel barrier would prevent this contact, but if this
type of tube is not used, the serum must be removed from the cells and
transferred to another tube. The specimen can still be used and should
not be discarded even though it was not collected into a gel barrier
tube. It is crucial to the accuracy of the test that the serum is
removed as soon as centrifugation is completed.

Pneumatic tube system is a convenient transport medium used in
healthcare facilities. When it comes to transporting laboratory
specimens, special strict protocols are followed to ensure integrity of
the specimen, safety of the operator, and to prevent contamination
issues. According to CLSI guidelines, the tests negatively affected by
pneumatic tube system transport are those influenced due to red cell
disruption, such as potassium, plasma hemoglobin, acid phosphatase, and
lactate dehydrogenase.

CLSI states that the following tests are **NOT** affected by Pneumatic
tube system transport: albumin, alkaline phosphatase, AST, chloride,
creatinine, glucose, sodium, total bilirubin, total protein, BUN, uric
acid, thrombin time, and WBC concentration.

Specimen leakage should be prevented when transporting a urine specimen
via the pneumatic tube system. At a minimum, a specimen must be in a
primary receptacle that is leak-proof with a tightly secured lid or
closure. The primary receptacle must then be placed into a secondary
container, such as a zip-locked biohazard bag, to further protect
against leakage of the specimen. If a specimen is sent through a
pneumatic tube system, the integrity of the carrier into which the
specimen is placed should be checked to prevent a mishap in the system
during transport of the specimen. Look for cracks in the carrier and
verify that the closure locks properly. The carrier should contain foam
pads in order to provide cushioning and containment during transport.

The container used to transport clinical laboratory specimens by courier
has to have the appropriate label placed on it, which is the biohazard
label or symbol.

\"Biological Substance Category A\" or \"Biological Substance Category
would be the appropriate labels for infectious

substances that are shipped via air, highway, rail, or water using a
commercial carrier. The specific label that is needed depends on the
type of material that is being transported.

The albumin test results will not be affected if the specimen is sent by
the hospital\'s pneumatic tube system. The vibrations and shock to the
blood specimen created during pneumatic tube transportation can damage
the red blood cells and negatively affect some test results. CLSI
recommends that potassium, plasma hemoglobin, acid phosphatase, and
lactate dehydrogenase not be transported to the laboratory via pneumatic
tube system.

CLSI states that the following tests are **NOT** affected by Pneumatic
tube system transport: albumin, alkaline phosphatase, AST, chloride,
creatinine, glucose, sodium, total bilirubin, total protein, BUN, uric
acid, thrombin time, and WBC concentration.

A specimen without an additive or anticoagulant should be allowed to
clot for at least 30 minutes prior to centrifugation. Incomplete
clotting of the specimen will leave small fibrin residue in the serum,
which would interfere with testing or clog the testing instrument probe
or tubing. The specimen should not be held for more than two hours prior
to centrifugation because some of the analyte levels (glucose) may be
falsely decreased due to cellular consumption or falsely increased
(potassium) due to hemolysis.

Reduced centrifugation time and increased speed can leave residual
separator gel particles in the serum, which can interfere with testing
or clog the probes and the tubing of automated testing instruments.

Improper balance of the centrifuge can result in potential tube
breakage, exposure to biohazardous agents, and mechanical centrifuge
damage.

Compliance with standard procedures will avoid these effects.

Reduced centrifugation time and increased speed can cause hemolysis
which can interfere with accurate testing. It can also leave residual
separator gel particles in the serum, which can interfere with testing
or clog the probes and the tubing of automated testing instruments.
Furthermore, it can cause incomplete separation of serum and cells,
which will interfere with testing.

Complete clotting is required for a serum specimen before centrifugation
is started, otherwise, the fibrin residue may still be in the serum,
which could interfere with testing.

Plasma specimens contain anticoagulants and will not clot.

It is recommended not to increase the centrifugation speed for a
specimen because increased speed will cause the specimen to hemolyze.

If there is a delay in centrifugation, the serum glucose levels may be
decreased. The cells have to be separated from the serum because they
will continue to consume the glucose present in the serum.