The carbon footprint of external beam radiotherapy and its impact in health technology assessment

IF 2.7 3区 医学 Q3 ONCOLOGY Clinical and Translational Radiation Oncology Pub Date : 2024-07-31 DOI:10.1016/j.ctro.2024.100834
Chloé Dupraz , Coline Ducrot , Benoit Allignet , Gregory Delpon , Anthony Alexis , Ariane Lapierre , Stéphane Supiot , David Ali , Max Piffoux
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Abstract

Background

The major drivers of carbon dioxide (CO2eq) emissions of external beam radiation therapy (EBRT) are not well known and limit our ability to initiate mitigation strategies.

Material and methods

We describe the carbon footprint of four typical centers. We explore direct EBRT associated factors such as the impact of fractionation and use of MRI-LINAC, as well as indirect factors (e.g. patient rides). Treatment strategy related CO2eq emissions are included in a health technology assessment analysis that takes into account CO2eq emissions.

Results

A typical EBRT treatment emits from 185 kgCO2eq to 2066 kgCO2eq. CO2eq emissions are mostly driven by (i) accelerator acquisition and maintenance (37.8 %), (ii) patients and workers rides (32.7 %), (iii) drugs and medical devices (7.3 %), (iv) direct energy consumption (6.1 %), and (v) building and bunker construction (5.6 %) with a substantial heterogeneity among centers. Hypofractionation has a strong impact to mitigate emissions. MRI-LINAC is associated with a substantial increase in CO2eq emissions per fraction and requires ultra hypofractionation in 5 fractions to achieve a similar carbon footprint compared to 20 fractions treatment schemes. The expected limited small increase in toxicities due to hypofractionation (when existing) are in the same range as avoided detrimental effects to future people’s health thanks to CO2eq mitigation.

Conclusion

Carbon footprint of EBRT is not neglectable and could be mitigated. When safely feasible, hypofractionation is one of the main factors to decrease this impact. Taking into account CO2eq emissions has a substantial impact on the health technology assessment of EBRT, favoring hypofractionated regimens.

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体外放射治疗的碳足迹及其对健康技术评估的影响
背景外照射放射治疗(EBRT)二氧化碳(CO2eq)排放的主要驱动因素尚不清楚,这限制了我们启动减排策略的能力。我们探讨了与 EBRT 相关的直接因素(如分次治疗和使用 MRI-LINAC 的影响)以及间接因素(如患者乘车)。与治疗策略相关的二氧化碳排放量被纳入考虑二氧化碳排放量的健康技术评估分析中。二氧化碳排放量主要来自:(i) 加速器的购置和维护(37.8%);(ii) 病人和工作人员的乘车(32.7%);(iii) 药品和医疗器械(7.3%);(iv) 直接能源消耗(6.1%);(v) 建筑和掩体建造(5.6%),各中心的排放量差异很大。低分切对减少排放有很大影响。核磁共振-LINAC与每分段二氧化碳当量排放量的大幅增加有关,与20分段治疗方案相比,需要在5分段进行超低分段才能实现相似的碳足迹。由于减少 CO2eq 排放,预计因低分次治疗(如存在)而增加的少量毒性与避免对未来人群健康造成的不利影响处于同一范围。在安全可行的情况下,低分量治疗是减少这种影响的主要因素之一。考虑二氧化碳排放量会对 EBRT 的健康技术评估产生重大影响,有利于采用低分量治疗方案。
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来源期刊
Clinical and Translational Radiation Oncology
Clinical and Translational Radiation Oncology Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
5.30
自引率
3.20%
发文量
114
审稿时长
40 days
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