Comparative Analysis of Traditional and Pharmacometric-Based Pharmacoeconomic Modeling in the Cost-Utility Evaluation of Sunitinib Therapy.

IF 4.4 3区医学 Q1 ECONOMICS PharmacoEconomics Pub Date : 2024-09-26 DOI:10.1007/s40273-024-01438-z

Maddalena Centanni, Janine Nijhuis, Mats O Karlsson, Lena E Friberg

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Abstract

Background: Cost-utility analyses (CUAs) increasingly use models to predict long-term outcomes and translate trial data to real-world settings. Model structure uncertainty affects these predictions. This study compares pharmacometric against traditional pharmacoeconomic model evaluations for CUAs of sunitinib in gastrointestinal stromal tumors (GIST).

Methods: A two-arm trial comparing sunitinib 37.5 mg daily with no treatment was simulated using a pharmacometric-based pharmacoeconomic model framework. Overall, four existing models [time-to-event (TTE) and Markov models] were re-estimated to the survival data and linked to logistic regression models describing the toxicity data [neutropenia, thrombocytopenia, hypertension, fatigue, and hand-foot syndrome (HFS)] to create traditional pharmacoeconomic model frameworks. All five frameworks were used to simulate clinical outcomes and sunitinib treatment costs, including a therapeutic drug monitoring (TDM) scenario.

Results: The pharmacometric model framework predicted that sunitinib treatment costs an additional 142,756 euros per quality adjusted life year (QALY) compared with no treatment, with deviations - 21.2% (discrete Markov), - 15.1% (continuous Markov), + 7.2% (TTE Weibull), and + 39.6% (TTE exponential) from the traditional model frameworks. The pharmacometric framework captured the change in toxicity over treatment cycles (e.g., increased HFS incidence until cycle 4 with a decrease thereafter), a pattern not observed in the pharmacoeconomic frameworks (e.g., stable HFS incidence over all treatment cycles). Furthermore, the pharmacoeconomic frameworks excessively forecasted the percentage of patients encountering subtherapeutic concentrations of sunitinib over the course of time (pharmacoeconomic: 24.6% at cycle 2 to 98.7% at cycle 16, versus pharmacometric: 13.7% at cycle 2 to 34.1% at cycle 16).

Conclusions: Model structure significantly influences CUA predictions. The pharmacometric-based model framework more closely represented real-world toxicity trends and drug exposure changes. The relevance of these findings depends on the specific question a CUA seeks to address.

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传统药物经济学模型与基于药物计量学的药物经济学模型在舒尼替尼治疗成本效用评估中的对比分析

背景：成本效用分析（CUAs）越来越多地使用模型来预测长期结果，并将试验数据转化为真实世界的环境。模型结构的不确定性会影响这些预测。本研究比较了药物计量学与传统药物经济学模型对舒尼替尼治疗胃肠道间质瘤（GIST）的成本效用分析的评估：方法：使用基于药物计量学的药物经济学模型框架模拟了一项两臂试验，比较舒尼替尼 37.5 毫克/天和不治疗。总体而言，现有的四个模型[时间到事件模型（TTE）和马尔可夫模型]被重新估计为生存数据，并与描述毒性数据[中性粒细胞减少症、血小板减少症、高血压、疲劳和手足综合征（HFS）]的逻辑回归模型相联系，从而创建了传统的药物经济学模型框架。所有五个框架都用于模拟临床结果和舒尼替尼治疗成本，包括治疗药物监测（TDM）方案：药物计量学模型框架预测，与不治疗相比，舒尼替尼治疗每质量调整生命年（QALY）额外花费142,756欧元，与传统模型框架的偏差分别为-21.2%（离散马尔可夫）、-15.1%（连续马尔可夫）、+7.2%（TTE Weibull）和+39.6%（TTE指数）。药物计量学框架捕捉到了毒性随治疗周期的变化（例如，HFS 发生率在第 4 个周期前有所增加，之后有所下降），而药物经济学框架则没有观察到这种模式（例如，HFS 发生率在所有治疗周期都保持稳定）。此外，药物经济学框架过高地预测了在治疗过程中出现舒尼替尼亚治疗浓度的患者比例（药物经济学：第2周期为24.6%，第16周期为98.7%；药物计量学：第2周期为13.7%，第16周期为34.1%）：结论：模型结构对 CUA 预测有重大影响。基于药物计量学的模型框架更贴近真实世界的毒性趋势和药物暴露变化。这些发现的相关性取决于 CUA 所要解决的具体问题。

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来源期刊

PharmacoEconomics 医学-药学

CiteScore

8.10

自引率

9.10%

发文量

审稿时长

6-12 weeks

期刊介绍： PharmacoEconomics is the benchmark journal for peer-reviewed, authoritative and practical articles on the application of pharmacoeconomics and quality-of-life assessment to optimum drug therapy and health outcomes. An invaluable source of applied pharmacoeconomic original research and educational material for the healthcare decision maker. PharmacoEconomics is dedicated to the clear communication of complex pharmacoeconomic issues related to patient care and drug utilization. PharmacoEconomics offers a range of additional features designed to increase the visibility, readership and educational value of the journal’s content. Each article is accompanied by a Key Points summary, giving a time-efficient overview of the content to a wide readership. Articles may be accompanied by plain language summaries to assist readers who have some knowledge of, but not in-depth expertise in, the area to understand the scientific content and overall implications of the article.