Scientific Reports (Jun 2024)

Dosimetric analysis of six whole-breast irradiation techniques in supine and prone positions

  • Dong Wook Kim,
  • Chae-Seon Hong,
  • Junyoung Son,
  • Se Young Kim,
  • Ye-In Park,
  • Mijoo Chung,
  • Weon Kuu Chung,
  • Min Cheol Han,
  • Jihun Kim,
  • Hojin Kim,
  • Jin Sung Kim

DOI
https://doi.org/10.1038/s41598-024-65461-y
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract In breast cancer radiation therapy, minimizing radiation-related risks and toxicity is vital for improving life expectancy. Tailoring radiotherapy techniques and treatment positions can reduce radiation doses to normal organs and mitigate treatment-related toxicity. This study entailed a dosimetric comparison of six different external beam whole-breast irradiation techniques in both supine and prone positions. We selected fourteen breast cancer patients, generating six treatment plans in both positions per patient. We assessed target coverage and organs at risk (OAR) doses to evaluate the impact of treatment techniques and positions. Excess absolute risk was calculated to estimate potential secondary cancer risk in the contralateral breast, ipsilateral lung, and contralateral lung. Additionally, we analyzed the distance between the target volume and OARs (heart and ipsilateral lung) while considering the treatment position. The results indicate that prone positioning lowers lung exposure in X-ray radiotherapy. However, particle beam therapies (PBTs) significantly reduce the dose to the heart and ipsilateral lung regardless of the patient’s position. Notably, negligible differences were observed between arc-delivery and static-delivery PBTs in terms of target conformity and OAR sparing. This study provides critical dosimetric evidence to facilitate informed decision-making regarding treatment techniques and positions.