Radiation Physics and Engineering
A peer-reviewed journal published by K. N. Toosi University of Technology

Does the deep-inspiration breath-hold technique effectively protect cardiac substructures in radiotherapy for left-sided breast cancer patients?

Document Type : Research Article

Authors

Niloofar Rafat-Motavalli 1
Hashem Miri-Hakimabad 1
Elie Hoseinian-Azghadi 1
Mahdieh Dayyani 2

1 Physics Department, Faculty of Science, Ferdowsi University of Mashhad, Mashhad, Iran

2 Research and Education Department, Mashhad Cancer Charity, Mashhad, Iran

https://doi.org/10.22034/rpe.2024.484724.1251
Abstract
For radiotherapy in patients with left-sided breast cancer, the deep inspiration breath-hold (DIBH) technique has been introduced to reduce cardiac toxicity and lower the risk of mortality due to cardiovascular complications. This technique was studied in 25 patients who had two sets of image data for DIBH and free-breathing (FB) treatments. The dose data from the FB and DIBH plans were then analyzed and compared. Additionally, the mean dose and dose-volume parameters for the heart, left ventricle (LV), and left anterior descending (LAD) artery were calculated and analyzed. Stricter criteria have been applied to these values, and the current treatment plans have been reviewed. Our results show that radiation doses to cardiac substructures, such as the LV and LAD artery, do not meet the stricter criteria in nearly all cases. Since radiation dose to these substructures is crucial in preventing late cardiac complications, relying solely on the DIBH technique is not enough for protecting the heart. It is essential to consider these substructures during the treatment planning phase for patients with left-sided breast cancer. Additionally, there should be an exploration of newer techniques that can help achieve the stricter criteria for protecting heart substructures.

Highlights

  • We assessed the doses received by cardiac substructures during breast radiotherapy.
  • The study involved 25 left-sided breast cancer patients in both DIBH and FB conditions.
  • Our findings emphasize the importance of accurately contouring left ventricle and the left anterior descending artery.
  • The current planning protocols are insufficient to protect the heart and prevent cardiotoxicity.

Keywords

Deep inspiration breath hold
Free breathing
Breast cancer
Radiation therapy
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Radiation Physics and Engineering
Volume 6, Issue 2
Winter 2025
Pages 11-21

  • Receive Date 22 October 2024
  • Revise Date 02 November 2024
  • Accept Date 03 November 2024

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