In a diabetes detection program with test A cutoff 165 mg/dl and test B cutoff 135 mg/dl, which statement is FALSE?

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Study for the PHRD554 Public Health Test. Prepare with flashcards and multiple-choice questions, each featuring hints and explanations. Get ready to excel in your exam!

Multiple Choice

In a diabetes detection program with test A cutoff 165 mg/dl and test B cutoff 135 mg/dl, which statement is FALSE?

Explanation:
When you raise the cutoff for a diagnostic test, you make the test more stringent. That tends to increase specificity (fewer non-diseased people test positive) and decrease sensitivity (more diseased people test negative). It also means fewer false positives and more false negatives. With test A having a higher cutoff (165 mg/dl) than test B (135 mg/dl): - Specificity is higher for the tougher cutoff, so test A has greater specificity than test B. - Sensitivity is lower for the tougher cutoff, so test A has lower sensitivity than test B. - Fewer people without diabetes will test positive with the higher cutoff, so the number of false positives is smaller with the higher cutoff. - More people with diabetes will be missed by the higher cutoff, so false negatives are more numerous with the higher cutoff. Thus, the statement that the number of false-positive results is less with the higher cutoff is true, not false. In this setup, all these relationships hold, so there isn’t a false statement among them; the given key appears to be incorrect.

When you raise the cutoff for a diagnostic test, you make the test more stringent. That tends to increase specificity (fewer non-diseased people test positive) and decrease sensitivity (more diseased people test negative). It also means fewer false positives and more false negatives.

With test A having a higher cutoff (165 mg/dl) than test B (135 mg/dl):

  • Specificity is higher for the tougher cutoff, so test A has greater specificity than test B.

  • Sensitivity is lower for the tougher cutoff, so test A has lower sensitivity than test B.

  • Fewer people without diabetes will test positive with the higher cutoff, so the number of false positives is smaller with the higher cutoff.

  • More people with diabetes will be missed by the higher cutoff, so false negatives are more numerous with the higher cutoff.

Thus, the statement that the number of false-positive results is less with the higher cutoff is true, not false. In this setup, all these relationships hold, so there isn’t a false statement among them; the given key appears to be incorrect.

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