Author
Listed:
- Hani M. Samawi
- Marwan Alsharman
- Jing Kersey
Abstract
Diagnostic testing typically involves two types of classification. Binary tests separate individuals into diseased or non-diseased groups, while multi-class methods, like tree or umbrella ordering, compare one class's biomarker levels to those of other classes. Kullback-Leibler divergence (KL), which measures the difference between two distributions, has been considered a valuable index for assessing the diagnostic performance of biomarkers. In this work, we derive and propose the total rule-in and rule-out Kullback-Leibler divergence (TTKL(c)) as a measure of accuracy, obtained by dichotomizing a continuous biomarker, and as an optimization criterion for cut-off point selection under tree or umbrella ordering. We have established a connection between the proposed TTKL(c) measure and the extended Youden index, which is the most used criterion for cut-off point selection. Additionally, we present both theoretical and numerical derivations for scenarios involving a single cut-off point under extended tree ordering. Graphically, KL divergence is represented through the information graph. Using simulation methods, we conducted a power study to compare the performance of our proposed methods with the extended Youden index under tree ordering, as well as the accuracy of optimal cut-off selection. This analysis provides insights into the effectiveness of TTKL(c) as a robust criterion for selecting cut-off points in multi-class diagnostic settings. A comprehensive data analysis of lung cancer data illustrates the proposed applications.
Suggested Citation
Hani M. Samawi & Marwan Alsharman & Jing Kersey, 2026.
"On Kullback-Leibler divergence for medical diagnostics accuracy and cut-point selection criterion under tree or umbrella ordering,"
Statistical Theory and Related Fields, Taylor & Francis Journals, vol. 10(2), pages 285-307, April.
Handle:
RePEc:taf:tstfxx:v:10:y:2026:i:2:p:285-307
DOI: 10.1080/24754269.2026.2665851
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