使用时间权衡任务将离散选择实验的潜在效用映射到区间尺度的评估研究的有效设计:时间权衡任务健康状态的选择。

IF 3.1 3区 医学 Q2 HEALTH CARE SCIENCES & SERVICES Medical Decision Making Pub Date : 2023-04-01 DOI:10.1177/0272989X231159381
Menglu Che, Eleanor Pullenayegum
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引用次数: 0

摘要

背景:在引出实用工具对多属性实用工具的价值时,在线管理的离散选择实验(dce)比采访者促进的时间权衡(TTO)任务成本更低。dce在潜在尺度上捕获实用程序,并经常与少量TTO任务相结合,将实用程序固定在间隔尺度上。考虑到TTO数据的昂贵性质,使每个TTO响应的值集精度最大化的设计策略至关重要。方法:在简化的假设下,我们将最终值集的均方预测误差(MSE)表示为tto值健康状态数J和状态潜在效用方差VJ的函数。我们假设,即使这些假设不成立,MSE 1)在保持J不变的情况下随着VJ的增加而减少,2)在保持VJ不变的情况下随着J的增加而减少。我们使用模拟来检验我们的假设是否有经验支持:a)假设TTO和DCE公用事业之间存在潜在的线性关系;b)使用荷兰、美国和印度尼西亚EQ-5D-5L估值研究的已发表结果。结果:模拟集(a)支持假设,使用印度尼西亚估值数据参数化的模拟也支持假设,这表明TTO和DCE公用事业之间存在线性关系。美国和荷兰的估值数据显示,TTO和DCE公用事业之间存在非线性关系,不支持假设。具体来说,对于固定的J,较小的VJ值会降低而不是增加MSE。结论:考虑到在实践中,TTO和DCE效用之间的潜在关系可能是非线性的,因此,TTO评估的健康状态应均匀地放置在潜在效用量表上,以避免在量表的某些区域出现系统偏差。重点:估值研究可能会有大量的受访者在线完成离散选择任务,而较少的受访者完成时间权衡(TTO)任务,以将离散选择效用固定在间隔尺度上。我们表明,让每个TTO应答者完成多个任务而不是单个任务可以提高值集的精度。保持TTO应答者的总数和每个应答者的任务数量不变,通过TTO直接评估20个运行状况状态比直接评估10个运行状况状态可获得更好的预测精度。如果DCE潜在效用和TTO效用遵循完美的线性关系,那么通过在潜在效用量表的两端加权来选择要评估的TTO状态比在潜在效用量表上均匀选择状态具有更好的预测精度。相反,如果DCE潜在效用和TTO效用不遵循线性关系,那么在潜在效用量表上均匀地使用TTO选择要评估的状态,会比加权选择获得更好的预测精度。在评估EQ-5D-Y-3L的背景下,我们建议使用TTO评估20个或更多的健康状态,并将它们均匀地放置在潜在效用规模上。
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Efficient Designs for Valuation Studies That Use Time Tradeoff (TTO) Tasks to Map Latent Utilities from Discrete Choice Experiments to the Interval Scale: Selection of Health States for TTO Tasks.

Background: In eliciting utilities to value multiattribute utility instruments, discrete choice experiments (DCEs) administered online are less costly than interviewer-facilitated time tradeoff (TTO) tasks. DCEs capture utilities on a latent scale and are often coupled with a small number of TTO tasks to anchor utilities to the interval scale. Given the costly nature of TTO data, design strategies that maximize value set precision per TTO response are critical.

Methods: Under simplifying assumptions, we expressed the mean square prediction error (MSE) of the final value set as a function of the number J of TTO-valued health states and the variance VJ of the states' latent utilities. We hypothesized that even when these assumptions do not hold, the MSE 1) decreases as VJ increases while holding J fixed and 2) decreases as J increases while holding VJ fixed. We used simulation to examine whether there was empirical support for our hypotheses a) assuming an underlying linear relationship between TTO and DCE utilities and b) using published results from the Dutch, US, and Indonesian EQ-5D-5L valuation studies.

Results: Simulation set (a) supported the hypotheses, as did simulations parameterized using valuation data from Indonesia, which showed a linear relationship between TTO and DCE utilities. The US and Dutch valuation data showed nonlinear relationships between TTO and DCE utilities and did not support the hypotheses. Specifically, for fixed J, smaller values of VJ reduced rather than increased the MSE.

Conclusions: Given that, in practice, the underlying relationship between TTO and DCE utilities may be nonlinear, health states for TTO valuation should be placed evenly across the latent utility scale to avoid systematic bias in some regions of the scale.

Highlights: Valuation studies may feature a large number of respondents completing discrete choice tasks online, with a smaller number of respondents completing time tradeoff (TTO) tasks to anchor the discrete choice utilities to an interval scale.We show that having each TTO respondent complete multiple tasks rather than a single task improves value set precision.Keeping the total number of TTO respondents and the number of tasks per respondent fixed, having 20 health states directly valued through TTO leads to better predictive precision than valuing 10 health states directly.If DCE latent utilities and TTO utilities follow a perfect linear relationship, choosing the TTO states to be valued by weighting on the 2 ends of the latent utility scale leads to better predictive precision than choosing states evenly across the latent utility scale.Conversely, if DCE latent utilities and TTO utilities do not follow a linear relationship, choosing the states to be valued using TTO evenly across the latent utility scale leads to better predictive precision than weighted selection does.In the context of valuation of the EQ-5D-Y-3L, we recommend valuing 20 or more health states using TTO and placing them evenly across the latent utility scale.

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来源期刊
Medical Decision Making
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.
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