Abstract

As advancements in novel biomarker-based algorithms and models accelerate their use in disease risk prediction, it is crucial to evaluate these models within the context of their intended clinical application. Prediction models output the absolute risk of disease; subsequently, patient counseling and shared decision-making are based on the estimated individual risk and cost-benefit assessment. The overall impact of the application is referred to as clinical utility, which received significant attention and desire to incorporate into model assessment lately. The classic Brier score is a popular measure of prediction accuracy; however, it is insufficient for effectively assessing clinical utility. To address this limitation, we propose a class of weighted Brier scores that aligns with the decision-theoretic framework of clinical utility. Additionally, we decompose the weighted Brier score into discrimination and calibration components, and we link the weighted Brier score to the <math xmlns="http://www.w3.org/1998/Math/MathML"><mi>H</mi></math> measure, which has been proposed as an alternative to the area under the receiver operating characteristic curve. This theoretical link to the <math xmlns="http://www.w3.org/1998/Math/MathML"><mi>H</mi></math> measure further supports our weighting method and underscores the essential elements of discrimination and calibration in risk prediction evaluation. The practical use of the weighted Brier score as an overall summary is demonstrated using data from a prostate cancer study.

EDRN PI Authors

• (None specified)

Medline Author List

• Chan KCG
• Zheng Y
• Zhu K

PubMed ID

Appears In

Stat Biosci, 2025 Sep (issue None)