Chemistry 6.10 Clinical Chemistry Problem-Solving Flashcards
Which is the best procedure to measure proportional error in a new method for glucose?
A. Compare the standard deviation of 40 patient samples to the hexokinase method
B. Measure a mixture made from equal parts of normal and high-QC sera
C. Add increasing amounts of glucose to a sample of known concentration and measure
D. Compare the mean of 40 normal samples with the hexokinase method
C. Add increasing amounts of glucose to a sample of known concentration and measure
Which of two instruments can be assumed to have the narrower bandpass? Assume that wavelength is accurately calibrated.
A. The instrument giving the highest absorbance for a solution of 0.1 mmol/L NADH at 340 nm
B. The instrument giving the lowest %T for a solution of nickel sulfate at 700 nm
C. The instrument giving the highest %T reading for 1.0% volume per volume (v/v) HCl at 350 nm
D. The instrument giving the most linear plot of absorbance versus concentration
A. The instrument giving the highest absorbance for a solution of 0.1 mmol/L NADH at 340 nm
A lipemic sample gives a sodium of 130 mmol/L on an analyzer that uses a 1:50 dilution of serum or plasma before introducing it to the ion-selective electrodes. The same sample gives a sodium of 142 mmol/L using a direct (undiluted) ion-selective electrode. Assuming acceptable quality control, which of the following is the most appropriate course of action?
A. Report a sodium result of 136 mmol/L
B. Ultracentrifuge the sample and repeat by ISE
C. Dilute the sample 1:4 and repeat by ISE
D. Report a sodium result of 142 mmol/L
D. Report a sodium result of 142 mmol/L
SITUATION: A 22S QC error occurs for serum calcium by atomic absorption. Fresh standards prepared in 5% w/v albumin are found to be linear, but repeating the controls with fresh material does not improve the QC results. Select the most likely cause of this problem.
A. Matrix effect caused by a viscosity difference between the standards and QC sera
B. Chemical interference caused incomplete atomization
C. Incomplete deconjugation of protein-bound calcium
D. Ionization interference caused by excessive heat
B. Chemical interference caused incomplete atomization
SITUATION: A serum osmolality measured in the emergency department is 326 mOsm/kg. Two hours later, chemistry results are:
Na = 135 mmol/L
glucose = 72 mg/dL
BUN = 18 mg/dL
measured osmolality = 318 mOsm/kg
What do these results suggest?
A. Laboratory error in electrolyte or glucose measurement
B. Drug or alcohol intoxication
C. Specimen misidentification
D. Successful rehydration of the patient
B. Drug or alcohol intoxication
When calibrating a pH meter, unstable readings occur for both pH 7.00 and 4.00 calibrators, although both can be set to within 0.1 pH unit. Select the most appropriate course of action.
A. Measure the pH of the sample and report to the nearest 0.1 pH
B. Replace both calibrators with unopened buffers and recalibrate
C. Examine the reference electrode junction for salt crystals
D. Move the electrodes to another pH meter and calibrate
C. Examine the reference electrode junction for salt crystals
A method calls for extracting an acidic drug from urine with an anion exchange column. The pKa of the drug is 6.5. Extraction is enhanced by adjusting the sample pH to:
A. 8.5
B. 6.5
C. 5.5
D. 4.5
A. 8.5
SITUATION: A patient who has a positive urinalysis result for glucose and ketones has a glycated Hgb of 4.0%. A fasting glucose performed the previous day was 180 mg/dL. Assuming acceptable QC, you would:
A. Report the glycosylated Hgb
B. Request a new specimen and repeat the glycosylated Hgb
C. Perform a Hgb electrophoresis on the sample
D. Perform a glucose measurement on the sample
B. Request a new specimen and repeat the glycosylated Hgb
Quality control results for uric acid are as follows:
Run 1:
QC1= 3.5 QC2= 6.8
Run 2:
QC1= 3.8 QC2= 7.2
Run 3:
QC1= 4.1 QC2= 7.4
Run 4:
QC1= 4.2 QC2= 7.0
Mean:
QC1= 3.6 QC2= 7.0
SD:
QC1= 0.40 QC2= 0.25
Results should be reported from:
A. Run 1 only
B. Runs 1 and 2
C. Runs 1, 2, and 3
D. Runs 1, 2, 3, and 4
C. Runs 1, 2, and 3
Although no single result exceeds the 2s limit, the 41s rule is broken on Run 4. This means that both QC1 and QC2 exceeded + 1s on Run 3 and Run 4.
SITUATION: A peak blood level for gentamicin administered intramuscularly (therapeutic range 5–10 µg/mL) is 0.7 µg/mL. The preceding trough level was 0.5 µg/mL. What is the most likely explanation of these results?
A. Laboratory error made on peak measurement
B. Specimen for peak level was collected from wrong patient
C. Blood for peak level was drawn too soon
D. Elimination rate has reached maximum
C. Blood for peak level was drawn too soon
SITUATION: A patient breathing room air has the following arterial blood gas and
electrolyte results:
pH = 7.54
PCO2 = 18.5 mm Hg
PO2 = 145 mm Hg
HCO3 = 18 mmol/L
Na = 135 mmol/L
K = 4.6 mmol/L
Cl = 98 mmol/L
TCO2 = 20 mmol/L
The best explanation for these results is:
A. Blood for electrolytes was drawn above an IV site
B. Serum sample was hemolyzed
C. Venous blood was sampled for arterial blood gases
D. Blood gas sample was exposed to air
D. Blood gas sample was exposed to air
A patient breathing room air cannot have an arterial PO2 greater than 105 mm Hg because alveolar PO2 is 110 mm Hg when breathing 20% O2. Exposure to air caused loss of CO2 gas and increased pH
SITUATION: The following laboratory results are reported. Which result is most likely to be erroneous?
Arterial blood gases:
pH = 7.42
PO2 = 90 mm Hg
PCO2 = 38.0 mm Hg
HCO3= 24 mmol/L
Plasma electrolytes:
Na = 135 mmol/L
Cl = 98 mmol/L
K = 4.6 mmol/L
TCO2 = 33 mmol/L
A. pH
B. Na
C. K
D. TCO2
D. TCO2
SITUATION: Laboratory results on a patient from the ED are:
Glucose = 1,100 mg/dL
Na = 155 mmol/L
K = 1.2 mmol/L
Cl = 115 mmol/L
TCO2 = 3.0 mmol/L
What is the most likely explanation of these results?
A. Sample drawn above an IV site
B. Metabolic acidosis with increased anion gap
C. Diabetic ketoacidosis
D. Laboratory error measuring electrolytes caused by hyperglycemia
A. Sample drawn above an IV site
SITUATION: A plasma sample from an adult male in a coma as a result of an automobile accident gave the following results:
Total CK= 480 IU/L
CK-MB= 8 µg/L
Myoglobin= 800 µg/L
Troponin I= 2.1 ng/L
What is the best interpretation of these results?
A. The person had a heart attack that caused the accident
B. The accident caused traumatic injury, but no heart attack had occurred
C. A heart attack had occurred in addition to a stroke
D. It is not possible to tell whether a heart attack had occurred because of the extensive trauma
B. The accident caused traumatic injury, but no heart attack had occurred
SITUATION: A patient has the following electrolyte results:
Na = 130 mmol/L
K = 4.8 mmol/L
Cl = 105 mmol/L
TCO2 = 26 mmol/L
Assuming acceptable QC, select the best course of action.
A. Report these results
B. Check the albumin, total protein, calcium, phosphorus, and magnesium results; if normal, repeat the sodium test
C. Request a new sample
D. Recalibrate and repeat the potassium test
B. Check the albumin, total protein, calcium, phosphorus, and magnesium results; if normal, repeat the sodium test
The anion gap of this sample is less than 4 mmol/L. This may result from laboratory error, retention of an unmeasured cation (e.g., calcium), or low level of unmeasured anion, such as phosphorus or albumin. The sodium is inappropriately low for the chloride and HCO 3 - and should be repeated if no biochemical cause is apparent.
A stat plasma lithium determined by using an ISE is measured at 14.0 mmol/L. Select the most appropriate course of action.
A. Immediately report this result
B. Check sample for hemolysis
C. Call for a new specimen
D. Rerun the lithium calibrators
C. Call for a new specimen
Lithium in excess of 2.0 mmol/L is toxic
A chromatogram for blood alcohol (GC) gives broad trailing peaks and increased retention times for ethanol and internal standard. This is most likely caused by:
A. A contaminated injection syringe
B. Water contamination of the column packing
C. Carrier gas flow rate that is too fast
D. Oven temperature that is too high
B. Water contamination of the column packing
SITUATION: The amylase result is 550 units/L. A 1:4 dilution of the specimen in NaCl gives 180 units/L (before mathematical correction for dilution). The dilution is repeated with the same results. Select the best course of action.
A. Report the amylase as 550 units/L
B. Report the amylase as 720 units/L
C. Report the amylase as 900 units/L
D. Dilute the sample 1:10 in distilled water and repeat
B. Report the amylase as 720 units/L
SITUATION: A patient’s biochemistry results are:
ALT = 55 IU/L
AST = 165 IU/L
Glucose = 87 mg/dL
LD = 340 IU/L
Na = 142 mmol/L
K = 6.8 mmol/L
Ca = 8.4 mg/dL
Pi = 7.2 mg/dL
Select the best course of action.
A. Report results along with an estimate of the degree of hemolysis
B. Repeat LD, but report all other results
C. Request a new sample
D. Dilute the serum 1:2, and repeat AST and LD
A. Report results along with an estimate of the degree of hemolysis
Results indicate a moderately hemolyzed sample. Because sodium, calcium, and glucose are not significantly affected, results should be reported along with an estimate of visible hemolysis. The physician may reorder affected tests of interest.
sodium = 135-145
Ca = 8.5-10
Glucose = 70-100
ALT: 7 to 56
AST: 8 to 33!!
LD: 122-222!!
Pi: 3 to 5
A blood sample is left on a phlebotomy tray for 4.5 hours before it is delivered to the laboratory. Which group of tests could be performed?
A. Glucose, Na, K, Cl, TCO2
B. Uric acid, BUN, creatinine
C. Total and direct bilirubin
D. CK, ALT, ALP, AST
B. Uric acid, BUN, creatinine