Affiliation:
1. Department of Radiology University of Colorado School of Medicine, Anschutz Medical Campus Aurora Colorado USA
2. Early Cancer Detection Science Department American Cancer Society Kennesaw Georgia USA
Abstract
AbstractBackgroundThe US National Lung Screening Trial (NLST) and Dutch‐Belgian NELSON randomized controlled trials have shown significant mortality reductions from low‐dose computed tomography (CT) lung cancer screening (LCS). NLST, ITALUNG, and COSMOS trials have provided detailed dosimetry data for LCS.MethodsLCS trial mortality benefit results, organ dose and effective dose data, and Biological Effects of Ionizing Radiation, Report VII (BEIR VII) organ dose‐to‐cancer‐mortality risk data are used to estimate benefit‐to‐radiation‐risk ratios of the NLST, ITALUNG, and COSMOS trials. Data from those trials also are used to estimate benefit‐to‐radiation‐risk ratios for longer‐term LCS corresponding to scenarios recommended by United States Preventive Services Task Force and the American Cancer Society.ResultsIncluding only screening doses, NLST benefit‐to‐radiation‐risk ratios are 12:1 for males, 19:1 for females, and 16:1 overall. Including both screening and estimated follow‐up doses, benefit‐to‐radiation‐risk ratios for NLST are 9:1 for males, 13:1 for females, and 12:1 overall. For the ITALUNG trial, the benefit‐to‐radiation‐risk ratio is 58–63:1. For the COSMOS trial, assuming sex‐specific mortality benefits like those of the NELSON trial, the benefit‐to‐radiation‐risk ratio is 23:1. Assuming a conservative 20% mortality benefit, annual screening in people 50–79 years old with a 20+ pack‐year history of smoking has benefit‐to‐radiation‐risk ratios of 23:1 (with follow‐up doses adding 40% to screening doses) to 29:1 (with follow‐up adding 10%) based on COSMOS dose data.ConclusionsBased on linear, no threshold BEIR VII dose‐risk estimates, benefit‐to‐radiation‐risk ratios for LCS are highly favorable. Results emphasize the importance of using modern CT technologies, maintaining low diagnostic follow‐up rates, and minimizing both screening and diagnostic follow‐up doses.Plain Language Summary
The benefits of lung cancer screening significantly outweigh estimates of future harms associated with exposure to radiation during screening and diagnostic follow‐up examinations.
Our findings emphasize the importance of lung cancer screening practices using state‐of‐the‐art computed tomography scanners and specialized low‐dose lung screening and diagnostic follow‐up techniques.
Reference27 articles.
1. World Cancer Research Fund International.Lung Cancer Statistics. Accessed October 20 2022.https://www.wcrf.org/cancer‐trends/lung‐cancer‐statistics/
2. American Cancer Society.Cancer Facts and Figures 2023. Accessed May 26 2023.https://www.cancer.org/content/dam/cancer‐org/research/cancer‐facts‐and‐statistics/annual‐cancer‐facts‐and‐figures/2023/2023‐cancer‐facts‐and‐figures.pdf
3. Reduced Lung-Cancer Mortality with Low-Dose Computed Tomographic Screening
4. Estimated Radiation Dose Associated With Low-Dose Chest CT of Average-Size Participants in the National Lung Screening Trial
5. Body Size–Specific Organ and Effective Doses of Chest CT Screening Examinations of the National Lung Screening Trial