Using QALYs as an Outcome for Assessing Global Prediction Accuracy in Diabetes Simulation Models.

IF 3.1 3区医学 Q2 HEALTH CARE SCIENCES & SERVICES

Medical Decision Making Pub Date : 2024-10-30 DOI:10.1177/0272989X241285866

Helen A Dakin, Ni Gao, José Leal, Rury R Holman, An Tran-Duy, Philip Clarke

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引用次数: 0

Abstract

Objectives: (1) To demonstrate the use of quality-adjusted life-years (QALYs) as an outcome measure for comparing performance between simulation models and identifying the most accurate model for economic evaluation and health technology assessment. QALYs relate directly to decision making and combine mortality and diverse clinical events into a single measure using evidence-based weights that reflect population preferences. (2) To explore the usefulness of Q², the proportional reduction in error, as a model performance metric and compare it with other metrics: mean squared error (MSE), mean absolute error, bias (mean residual), and R².

Methods: We simulated all EXSCEL trial participants (N = 14,729) using the UK Prospective Diabetes Study Outcomes Model software versions 1 (UKPDS-OM1) and 2 (UKPDS-OM2). The EXSCEL trial compared once-weekly exenatide with placebo (median 3.2-y follow-up). Default UKPDS-OM2 utilities were used to estimate undiscounted QALYs over the trial period based on the observed events and survival. These were compared with the QALYs predicted by UKPDS-OM1/2 for the same period.

Results: UKPDS-OM2 predicted patients' QALYs more accurately than UKPDS-OM1 did (MSE: 0.210 v. 0.253; Q²: 0.822 v. 0.786). UKPDS-OM2 underestimated QALYs by an average of 0.127 versus 0.150 for UKPDS-OM1. UKPDS-OM2 predictions were more accurate for mortality, myocardial infarction, and stroke, whereas UKPDS-OM1 better predicted blindness and heart disease. Q² facilitated comparisons between subgroups and (unlike R²) was lower for biased predictors.

Conclusions: Q² for QALYs was useful for comparing global prediction accuracy (across all clinical events) of diabetes models. It could be used for model registries, choosing between simulation models for economic evaluation and evaluating the impact of recalibration. Similar methods could be used in other disease areas.

Highlights: Diabetes simulation models are currently validated by examining their ability to predict the incidence of individual events (e.g., myocardial infarction, stroke, amputation) or composite events (e.g., first major adverse cardiovascular event).We introduce Q², the proportional reduction in error, as a measure that may be useful for evaluating and comparing the prediction accuracy of econometric or simulation models.We propose using the Q² or mean squared error for QALYs as global measures of model prediction accuracy when comparing diabetes models' performance for health technology assessment; these can be used to select the most accurate simulation model for economic evaluation and to evaluate the impact of model recalibration in diabetes or other conditions.

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在糖尿病模拟模型中使用 QALYs 作为评估总体预测准确性的结果。

目标：(1) 展示如何使用质量调整生命年（QALYs）作为结果衡量标准，以比较模拟模型之间的性能，并确定最准确的经济评估和卫生技术评估模型。质量调整生命年与决策直接相关，并使用反映人群偏好的循证权重将死亡率和各种临床事件合并为一个衡量指标。(2) 探索 Q2（误差的比例减少）作为模型性能指标的实用性，并将其与其他指标进行比较：平均平方误差 (MSE)、平均绝对误差、偏差（平均残差）和 R2：我们使用英国前瞻性糖尿病研究结果模型软件版本 1（UKPDS-OM1）和版本 2（UKPDS-OM2）模拟了所有 EXSCEL 试验参与者（N = 14729）。EXSCEL 试验比较了每周一次的艾塞那肽和安慰剂（中位随访 3.2 年）。根据观察到的事件和生存期，使用默认的 UKPDS-OM2 实用程序估算试验期间未折现的 QALY。这些结果与 UKPDS-OM1/2 预测的同期 QALY 进行了比较：结果：UKPDS-OM2比UKPDS-OM1更准确地预测了患者的QALY（MSE：0.210 v. 0.253；Q2：0.822 v. 0.786）。UKPDS-OM2 平均低估了 QALYs 0.127，而 UKPDS-OM1 平均低估了 QALYs 0.150。UKPDS-OM2对死亡率、心肌梗死和中风的预测更为准确，而UKPDS-OM1对失明和心脏病的预测更为准确。Q2便于在亚组之间进行比较，而且（与R2不同的是）有偏差的预测因子的Q2较低：结论：Q2（QALYs）有助于比较糖尿病模型的总体预测准确性（跨所有临床事件）。它可用于模型登记、经济评估模拟模型之间的选择以及评估重新校准的影响。类似的方法也可用于其他疾病领域：糖尿病模拟模型目前是通过检查其预测单个事件（如心肌梗死、中风、截肢）或复合事件（如首次重大不良心血管事件）的发生率的能力来进行验证的、我们建议在比较糖尿病模型在健康技术评估中的表现时，将 Q2 或 QALYs 平均平方误差作为模型预测准确性的全面衡量指标；这些指标可用于选择最准确的模拟模型进行经济评估，以及评估模型重新校准对糖尿病或其他疾病的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Medical Decision Making 医学-卫生保健

CiteScore

6.50

自引率

5.60%

发文量

146

审稿时长

6-12 weeks

期刊介绍： Medical Decision Making offers rigorous and systematic approaches to decision making that are designed to improve the health and clinical care of individuals and to assist with health care policy development. Using the fundamentals of decision analysis and theory, economic evaluation, and evidence based quality assessment, Medical Decision Making presents both theoretical and practical statistical and modeling techniques and methods from a variety of disciplines.