Ducrot Coline, Péron Julien, Delaye Matthieu, Pérol David, Durand-Zaleski Isabelle, Piffoux Max
Orthopedic Surgery Unit, Hôpital Femme Mère Enfant, Hospices Civils de Lyon, Bron, France.
Team Cell Death and Pediatric Cancer, Cancer Initiation and Tumor Cell Identity Department, INSERM1052, CNRS5286, Cancer Research Center of Lyon, Lyon, France.
Pharmacoeconomics. 2025 Jul 19. doi: 10.1007/s40273-025-01521-z.
To what extent a care pathway, due to its associated pollution, may be more detrimental to future health than beneficial to contemporary patients is still an open question. We present a methodological framework to integrate pollutant-induced future health damages in health technology assessment (HTA) metrics like quality-adjusted life years (QALYs) and incremental cost-effectiveness ratios (ICERs) for a better evaluation of the cost effectiveness of care pathways.
We used the ReCiPe model to estimate the future detrimental health impact (in disability-adjusted life years [DALY]) of pollutants from the US healthcare system, showing the major impact of GHG emissions compared with other pollutants. An adapted version of the ReCiPe model was used to convert GHG emissions from care pathways into future DALY, QALY, and life years (LY), as well as the associated confidence intervals. For a given care pathway, future health damages were compared with patient benefits (e.g., QALY/QALY). Damages may also be integrated in the ICER by subtracting future health losses from patient health benefits. Case applications are provided.
Future damages to health emerging from pollutants emitted by the US healthcare system were estimated at 7,363,000 DALYs per year. Focusing on GHG emissions to estimate pollutant impact is reasonable, as they represent >90% of future damages. We provide estimates to convert GHG emissions into future health damages in DALY, QALY, or LY (and associated uncertainty), taking into account future impacts over different time horizons (20, 100, or 500-1000 years) and using different discount rates for future health impact (0 or 3%). We recommend estimating future damages using an egalitarian perspective (with a 0% discount rate) to maintain intergenerational equity. The QALY/QALY ratio allows weighting future detrimental effects of care pathways against their benefits. For health economic evaluations, we recommend integrating GHG emissions into the ICER, preferably in its denominator (QALY, DALY, LY). When focusing on specific care pathways, health gains may be substantially limited by future GHG-related detrimental impacts, especially for chronic treatments in low-risk populations. Some care pathways, like influenza vaccination, improve patient health while mitigating GHG. Accounting for GHG emissions may substantially favor or penalize one strategy over another in terms of ICER. Confidence intervals of the results were wide due to large uncertainties regarding long-term predictions.
HTA should consider care pathways' impact on future health to better assess the impact and cost effectiveness of health technologies. Under the hypothesis of intergenerational equity, GHG accounting has a substantial impact, and may presumably impact the decisions of HTA bodies. It may also be seen as an ecological bonus/malus for care pathway developers and pharmaceutical companies, incentivizing the development of greener care pathways.
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由于相关污染,一种护理路径对未来健康的危害程度是否可能超过对当代患者的益处,这仍是一个悬而未决的问题。我们提出了一个方法框架,将污染物导致的未来健康损害纳入健康技术评估(HTA)指标,如质量调整生命年(QALY)和增量成本效益比(ICER),以便更好地评估护理路径的成本效益。
我们使用ReCiPe模型来估计美国医疗系统污染物对未来健康的有害影响(以伤残调整生命年[DALY]计),结果表明与其他污染物相比,温室气体排放的影响最大。使用ReCiPe模型的一个改编版本,将护理路径的温室气体排放转化为未来的DALY、QALY和生命年(LY),以及相关的置信区间。对于给定的护理路径,将未来的健康损害与患者受益(如QALY/QALY)进行比较。损害也可通过从患者健康受益中减去未来健康损失而纳入ICER中。提供了案例应用。
估计美国医疗系统排放的污染物对未来健康造成的损害为每年736.3万DALY。关注温室气体排放以估计污染物影响是合理的,因为它们占未来损害的90%以上。我们提供了将温室气体排放转化为未来DALY、QALY或LY的健康损害估计值(以及相关不确定性),同时考虑了不同时间跨度(20年、100年或500 - 1000年)的未来影响,并对未来健康影响使用不同的贴现率(0%或3%)。我们建议从平等主义角度(贴现率为0%)估计未来损害,以维护代际公平。QALY/QALY比率允许权衡护理路径的未来有害影响与其益处。对于健康经济评估,我们建议将温室气体排放纳入ICER,最好是纳入其分母(QALY、DALY、LY)。当关注特定护理路径时,健康收益可能会受到未来与温室气体相关的有害影响的显著限制,特别是对于低风险人群的慢性治疗。一些护理路径,如流感疫苗接种,在改善患者健康的同时减少了温室气体排放。考虑温室气体排放可能在ICER方面极大地有利于或不利于一种策略。由于长期预测存在很大不确定性,结果的置信区间很宽。
HTA应考虑护理路径对未来健康的影响,以便更好地评估健康技术的影响和成本效益。在代际公平的假设下,温室气体核算有重大影响,可能会影响HTA机构的决策。它也可被视为护理路径开发者和制药公司的生态奖励/惩罚,激励开发更环保的护理路径。
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