The dosimetric and radiobiological effects of rotational errors in breast cancer radiotherapy
Denghong Liu, Quan Zhong, Ya Wang, Pan Gong, Xiangbin Zhang, Jialu Lai, Shichao Wang, Shoupeng Liu, Zhonghua Deng, Konglong Shen, Bin Du, Ruilin Peng, Renming Zhong

TL;DR
This study shows that rotational errors during breast cancer radiotherapy can significantly affect treatment outcomes by reducing tumor control and increasing risks to healthy tissues.
Contribution
The study introduces a detailed analysis of how rotational errors across multiple axes impact dosimetry and radiobiological outcomes in breast cancer radiotherapy.
Findings
Rotational errors significantly altered dose distributions, affecting tumor control probability and normal tissue complication probability.
Pitch and yaw rotations were most likely to cause dose deviations, with multi-axis rotations posing greater risks.
Left- and right-sided breast cancers showed different patterns of dose deviation based on rotational direction.
Abstract
This study aimed to assess the dosimetric and radiobiological consequences of rotational errors in breast cancer radiotherapy. A retrospective analysis involving 80 breast cancer patients was performed. We simulated 124 rotational scenarios across three axes (yaw, pitch, and roll) to generate rotated dose distributions, then evaluated their dosimetric effects alongside tumor control probability (TCP) and normal tissue complication probability (NTCP) for the target and organs at risk (OARs). Rotational errors caused significant dose deviations. The D95 for PTV, heart, ipsilateral lung, contralateral breast, and left anterior descending artery (LADV40) in rotated dose distributions showed statistical significance compared to the original dose (p < 0.05), except for LADV40 in the whole‐breast radiation therapy (WBRT) left4005 cohort (p = 0.058). LADV40 and PTVsc were primarily affected…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Breast Cancer Treatment Studies · Radiation Dose and Imaging
