Carbamoyl phosphate synthetase I deficiency is a rare disorder (incidence 1 in 800,000 newborns) with serious and possible irreversible consequences if not detected and treated early.  Therefore, it is important to identify all individuals who potentially have the disease using a screening test that can be performed on a large number of newborns.

Although an ideal screening test would be highly sensitive and specific, developing a test that has both of these properties is often not possible, and so a compromise must be made.  The sensitivity of a test refers to its ability to correctly identify those with the disease:  it is the probability of the test returning a positive result in a person with the disease.  A highly sensitive test will ensure that most patients with the disease will have a positive test result (leading to few false negative results); therefore, fewer cases of disease are missed.  Given a test with high sensitivity, a negative result would help to rule out a diagnosis (SnNout).  This is important during screening for life-threatening diseases, even if obtaining a high sensitivity causes an increased numbers of false positives (ie, reduced specificity).

(Choice A)  Setting a high cutoff value typically (but not always) produces higher specificity and lower sensitivity.

(Choices B and E)  Specificity represents the ability of a test to correctly identify those without the disease.  A very specific test has a low rate of false positives, so most healthy patients will have a negative test result (true negative).  Given a test with high specificity, a positive result would help to rule in a diagnosis (SpPin).  Confirmatory tests with high specificity are often used on patients who test positive on a screening test to ensure that a patient actually has the disease.

(Choice C)  Positive predictive value refers to the probability that a disease is present given a positive test result.  Positive predictive value depends on disease prevalence.  When screening patients for a rare disorder, positive predictive value will often be low due to a high number of false positives.

Educational objective:
The sensitivity of a test refers to its ability to correctly identify those with the disease.  A highly sensitive test should always be considered over a highly specific test when screening for life-threatening diseases, where identification of every person with the disease is important.