Evaluating the environmental impact of radiotherapy using life cycle assessments: a critical review
Lichter, K. E. Charbonneau, K. Sabbagh, A. Witztum, A. Chuter, Robert Anand, Chirjiv Thiel, C. L. Mohamad, O.
Lichter, K. E.
Charbonneau, K.
Sabbagh, A.
Witztum, A.
Chuter, Robert
Anand, Chirjiv
Thiel, C. L.
Mohamad, O.
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Abstract
Purpose: Concurrent increases in global cancer burden and the climate crisis pose an unprecedented threat to public health and human wellbeing. Today the healthcare sector greatly contributes to greenhouse gas emissions, with the future demand for healthcare services expected to rise. Life cycle assessment (LCA) is an internationally standardized tool that analyzes the inputs and outputs of products, processes, and systems to quantify associated environmental impacts. This critical review explains the use of LCA methodology and outlines its application in external beam radiation therapy (EBRT) with the aim of providing a robust methodology to quantify the environmental impact of radiotherapy care practices today.
Materials and methods: The steps of an LCA are outlined and explained as defined by the International Organization for Standardization (ISO 14040 and 14044) guidelines: (1) definition of the goal and scope of the LCA, (2) inventory analysis, (3) impact assessment, and (4) interpretation.
Results: The existing LCA framework and its methodology is described and applied to the field of radiation oncology. The goal and scope of its application to EBRT is the evaluation of the environmental impact of a single EBRT treatment course within a radiation oncology department. The methodology for data collection via mapping of the resources used (inputs) and the end-of-life processes (outputs) associated with EBRT is explained, with subsequent explanation of the LCA analysis steps. Finally, the importance of appropriate sensitivity analysis and the interpretations that can be drawn from LCA results are both reviewed.
Conclusion: This critical review of LCA protocol provides and evaluates a methodological framework to scientifically establish baseline environmental performance measurements within a healthcare setting, and assists in identifying targets for emissions mitigation. Future LCAs in the field of radiation oncology and across medical specialties will be crucial in informing best-practices for equitable and sustainable care in a changing climate.
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Date
2023
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Article
Citation
Lichter KE, Charbonneau K, Sabbagh A, Witztum A, Chuter R, Anand C, et al. Evaluating the Environmental Impact of Radiotherapy Using Life Cycle Assessments: A Critical Review. International journal of radiation oncology, biology, physics. 2023 May 10. PubMed PMID: 37172916. Epub 2023/05/13. eng.