Resident Readiness General Surgery (24 page)

Read Resident Readiness General Surgery Online

Authors: Debra Klamen,Brian George,Alden Harken,Debra Darosa

Tags: #Medical, #Surgery, #General, #Test Preparation & Review

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Answers

1.
Before you order any test you should ask yourself:
A. “What am I looking for?”
B. “How will the results change the management of this patient?”
In trying to answer these questions, we should first examine the test characteristics. This test has a low sensitivity, which means that it is less likely to be positive in disease. But the test is specific, which means that a positive result is most likely a true-positive. Furthermore, colon cancer has a relatively high prevalence, increasing the positive predictive value.
Based on these statistics it may at first glance appear that a positive test result might be useful—after all, it is highly specific and a positive result therefore most likely reflects the presence of disease. With this information we can answer question A: You could use this test to find what you are looking for. But in examining the second question regarding the impact the test result might have on patient management, things get a little more complicated. Indeed, on further examination it becomes clear that a positive result would not change management because it would require a colonoscopy to localize the tumor. If we examine the opposite outcome where this poorly sensitive test is negative, we cannot make any conclusions about the presence or absence of disease and—you guessed it—a colonoscopy would be needed. So, while this test might be able to help find colon cancer, it would not change the management of the patient. You should therefore explain this to the patient, decline to use the new test, and encourage the patient to undergo a colonoscopy.
2.
You have measured 3 consecutive PTT values in the therapeutic range and now there is suddenly a value way above your goal. It is important to first confirm that the drip rate did not change, as a result of either a miscommunication or a nursing error. If the rate has remained the same, then it is likely that some type
of lab error has occurred. A very common instance in the case of PTT testing is that the sample sent to the lab was drawn off of a line through which heparin was infusing. A repeat sample should be sent.
Similar situations can occur with almost any medication or infusion going through an intravenous line. For example, one may see falsely elevated glucose levels in patients receiving TPN when the blood sample was drawn off of the line. In such a case, correlation with finger-stick glucose levels is advised.
Other lab abnormalities that can occur are hemolysis in the sample tube, resulting in falsely elevated potassium levels, falsely elevated lactic acid levels from the sample being drawn from a vein in an arm with a tourniquet on it for an extended time, or pseudohyponatremia in the presence of extremely high glucose levels.
3.
First, let us review urine testing. There are 2 common urine tests—urinalysis and urine culture. A urinalysis looks at the following: appearance, pH, specific gravity, protein, glucose, ketones, red blood cells, leukocyte esterase, nitrites, bile, and urobilinogen. Additional elements of a urinalysis analyzed at the microscopic level are white blood cells, urinary casts, yeast, and epithelial cells.

The interpretation of urinalysis is not as easily defined as for some other tests. Each element of the urinalysis should be integrated into a whole, balancing those elements that suggest infection against those that argue against. Ms. Doe has some elements of her urinalysis that might suggest a urinary tract infection, such as the presence of bacteria and the presence of leukocytes. This is counterbalanced by the presence of squamous epithelial cells, negative leukocyte esterase, and negative nitrate. But how do we integrate these conflicting data?

Bacteria often appear in urine specimens. Normal microbial flora of the vagina in the female and the external urethral meatus in both sexes can rapidly multiply in urine standing at room temperature. Bacteriuria alone is therefore not diagnostic and, in a case of suspected urinary tract infection, requires culture to determine if it represents a pathogen or contamination. A bacterial count of more than 100,000/mL of 1 organism reflects significant bacteriuria and, in the setting of other positive findings on the urinalysis, a likely urinary tract infection. The presence of multiple organisms is usually indicative of contamination.

Leukocytes (white cells) may appear with infection in either the upper or lower urinary tract or with acute glomerulonephritis. White cells may also be contaminants from other, non-urinary tract sources. For example, samples may be contaminated with white cells from the vagina (often present in vaginal and cervical infections), or white cells from the external urethral meatus (in both men and women). Yet the presence of squamous epithelial cells indicates likely contamination from the skin surface or from the outer urethra. In general, 2 or more leukocytes per high-power field in urine that does not include any other markers
of contamination suggest that the specimen is abnormal. Higher numbers of leukocytes are even more convincing in this regard.

Nitrates and leukocyte esterase are more specific tests of urinary tract infection. Nitrates are the by-product of some bacteria, especially gram-negative rods such as
E coli
. Leukocyte esterase is normally contained within white blood cells and its presence indicates likely pyuria. Its absence, in contrast to nitrates, strongly argues against a urinary tract infection, especially in the absence of other compelling markers. As with all urinalysis data both leukocyte esterase and nitrate results should be integrated with other available data prior to drawing a final conclusion.

Lastly, a urinalysis should also be interpreted in the context of a patient’s clinical picture, including whether the patient is having symptoms of a UTI such as fevers, dysuria, or increased urinary frequency, urgency, or hesitancy. If the patient is symptomatic, then a urinalysis may not even be needed, and if performed, may require less criteria to be considered positive.

In our example, Ms. Doe’s urinalysis likely reflects a contaminated specimen. The squamous cells indicate contamination, she has relatively few white cells, leukocyte esterase and nitrate are negative, and the bacterial count is below the standard cutoff for urinary tract infections. Although she has 3 to 5 white cells, this is difficult to interpret in the context of contamination. Lastly, both negative leukocyte esterase and nitrate support the negative laboratory diagnosis.

TIPS TO REMEMBER

Judicious use of laboratory testing is essential to providing safe and cost-effective care to patients.
In the case of unexpected lab value results that are inconsistent with the clinical picture, remember that sampling errors can occur and that the context of the patient’s condition should help guide you in interpreting that result.

COMPREHENSION QUESTIONS

1.
A
D
-dimer test is highly sensitive for recent clotting, but it is not very specific (eg, it can be due to sepsis). Given this information, for which patient would it be reasonable to order a
D
-dimer test to screen for a DVT? Why?
A. A 55-year-old male patient with a history of peripheral vascular disease who is postoperative day 7 from an aortic aneurysm repair
B. A 65-year-old woman with an IVC filter and on chronic anticoagulation for a history of DVT who complains of R calf pain
C. A 43-year-old patient who was diagnosed yesterday with a subsegmental pulmonary embolus
D. A 23-year-old healthy woman with no known risk factors for DVT who presents to the ER with unilateral leg swelling
2.
A patient is postoperative day 1 from a pulmonary wedge resection. You stop to check on your patient and find that he is pale, tachycardic, and confused. Among other orders you ask the nurse to draw a stat CBC, chem 10, coagulation studies, and LFTs. When the labs come back, you see that he has an elevated total bilirubin of 2.5. This is an example of which of the following?
A. The limitations of the test characteristics for total bilirubin
B. A finding that is difficult to interpret
C. A normal result
D. A false-positive
E. A true-positive

Answers

1.
D
. Before ordering a test you must determine if the test actually measures what you are looking for. A d-dimer will always be elevated in a postoperative patient due to both stress and clot. It will also be elevated in a patient with a known PE. In both A and C the test doesn’t measure anything that isn’t already known. It is also imperative to determine how the result will change management. While B might have a new DVT, she is already being maximally treated for it and a positive result would not prompt any changes in management. While your pretest probability for a DVT might be low in D, a positive result might prompt additional diagnostic workup.
2.
B
. When ordering these many tests, there is a very high (>90%) chance of false-positives. While the measured total bilirubin is outside the “normal” reference range, we cannot know without further testing whether this value represents clinically significant pathology, if it is this patient’s normal baseline, or if it is simply lab error. Unfortunately, once an abnormal value is detected, there is an increased chance that the team will feel that the patient requires additional workup (in this case possibly an ultrasound).

A 73-year-old Man With Acute Right Lower Extremity Pain

Joel T. Adler, MD and Virendra I. Patel, MD, MPH

A 73-year-old male presents to the emergency department with 5 hours of acute right lower extremity pain. Mr. P tells you that the pain came “out of nowhere” while he was reading the morning newspaper. His past medical history is notable for atrial fibrillation, coronary artery disease, and diabetes. He takes warfarin, a baby aspirin, and a statin, and he has an 80-pack-year smoking history.

1.
What other parts of the history are relevant?
2.
What is the blood supply to the lower extremities?
3.
What findings on physical examination differentiate acute from chronic limb ischemia?
4.
What further testing would you want in this patient?
5.
What are the most common causes of acute limb ischemia?

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