将碳足迹纳入卫生技术评估(HTA)建模的探索性方法:英国卫生干预的成本效益分析。

IF 3.1 4区 医学 Q1 ECONOMICS
Max Kindred, Zahratu Shabrina, Neily Zakiyah
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引用次数: 0

摘要

背景:卫生干预措施有助于产生温室气体排放。因此,减少碳足迹对于支持英国国家医疗服务体系(NHS)实现净零排放至关重要。本研究以英国的肥胖干预为例,探讨了在应用健康技术评估(HTA)模型时可以包括碳足迹的方法。方法:使用决策分析模型,我们进行了一项HTA,纳入了肥胖相关治疗决策对英国碳排放的影响。一个队列马尔可夫模型被用来跟踪英国人群在接受两种肥胖治疗之一后的排放情况:西格鲁肽和减肥手术。结果:本研究引入了两种可能对未来政策制定有用的新碳测量工具,即增量碳足迹有效性比率(ICFER)和增量碳足迹成本比率(ICFCR),这使得评估拟议卫生政策的排放影响成为可能。通过肥胖干预案例研究,我们发现两种治疗方法在肥胖治疗上每花费一英镑,其成本效益增量比(ICER)为2e(千克二氧化碳当量)。结论:本研究为评估健康政策对碳排放的影响提供了一个案例研究,并为肥胖相关的治疗决策提供了定量衡量标准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Exploratory Approach to Incorporating Carbon Footprint in Health Technology Assessment (HTA) Modelling: Cost-Effectiveness Analysis of Health Interventions in the United Kingdom

Exploratory Approach to Incorporating Carbon Footprint in Health Technology Assessment (HTA) Modelling: Cost-Effectiveness Analysis of Health Interventions in the United Kingdom

Background

Health interventions contribute to the production of greenhouse gas emissions. Thus, reducing carbon footprint is essential in supporting the UK National Health Service (NHS) pathway to net zero. This study explores the approach in which carbon footprint can be included when applying Health Technology Assessment (HTA) modelling using obesity intervention in the United Kingdom (UK) as a case study.

Methods

Using decision analytic modelling, we conducted an HTA incorporating the impacts of obesity-related treatment decisions on UK carbon emissions. A cohort Markov model was used to track the emissions of the UK population after receiving one of two obesity treatments: semaglutide and bariatric surgery.

Results

This study introduced two new carbon measurement tools that may be useful for future policymaking, incremental carbon footprint effectiveness ratio (ICFER) and incremental carbon footprint cost ratio (ICFCR), which made it possible to assess the emission impacts of proposed health policies. Using the obesity intervention case study, we found that both treatments have an incremental cost-effectiveness ratio (ICER) of < £20,000 per quality-adjusted life-years (QALYs) gained. This is below the UK threshold, indicating that these are cost-effective treatments for obesity, but could increase the NHS carbon footprint. However, it could reduce the overall UK societal carbon footprint by reducing the number of people with obesity. The ICFCR shows a reduction of 1.13–4.51 kgCO2e (kilogram of carbon dioxide equivalent) for every pound spent on obesity treatment.

Conclusion

This study illustrates a case study for estimating the effect of health policies on carbon emissions and provides a quantitative measure for obesity-related treatment decisions.

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来源期刊
Applied Health Economics and Health Policy
Applied Health Economics and Health Policy Economics, Econometrics and Finance-Economics and Econometrics
CiteScore
6.10
自引率
2.80%
发文量
64
期刊介绍: Applied Health Economics and Health Policy provides timely publication of cutting-edge research and expert opinion from this increasingly important field, making it a vital resource for payers, providers and researchers alike. The journal includes high quality economic research and reviews of all aspects of healthcare from various perspectives and countries, designed to communicate the latest applied information in health economics and health policy. While emphasis is placed on information with practical applications, a strong basis of underlying scientific rigor is maintained.
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