Document Type
Article
Publication Title
Japanese journal of clinical oncology
Abstract
BACKGROUND: Precise patient positioning is crucial for successful radiotherapy, ensuring accurate delivery of radiation to tumors while minimizing exposure to healthy tissues. Positional errors can significantly impact treatment efficacy and increase side effects. This study evaluates the effectiveness of daily cone beam computed tomography (CBCT) imaging in the Halcyon system for detecting and correcting patient misalignments across various cancer types and treatment sites.
METHODS: A retrospective analysis was conducted on 411 patients treated with the Varian Halcyon linear accelerator from August 2022 to August 2024. Patients were grouped based on tumor location: Head and Neck (118 patients), Chest (188 patients), and Pelvis (105 patients). Daily pre-treatment CBCT scans were performed to verify positioning, with shifts in the x, y, and z axes quantified and adjusted using automated couch corrections.
RESULTS: The study revealed average positional shifts along the x-axis of ~0.112 cm, while both the Chest and Pelvic groups recorded 0.194 cm. The y-axis deviations were 0.135 cm for Head and Neck, 0.206 cm for Chest, and 0.195 cm for the Pelvis. On the z-axis, a mean deviation of 0.07 cm was found for the Head and Neck group, while 0.11 cm for the Chest group, and 0.085 cm for the Pelvic group. The Head and Neck group exhibited the smallest standard deviations across all axes, indicating greater positional consistency. Normalized density distributions showed distinct emergent patterns, the Head and Neck group showing tighter distributions compared to the broader distributions observed in the Chest and Pelvic groups.
CONCLUSIONS: Daily CBCT imaging in the Halcyon system significantly enhances patient positioning accuracy in radiotherapy. The findings demonstrate that this approach minimizes positional shifts, particularly in the Head and Neck region, essential for optimizing treatment outcomes and reducing the risk of adverse effects. Future studies should further explore the integration of advanced imaging techniques to improve precision in patient positioning.
First Page
925
Last Page
932
DOI
10.1093/jjco/hyaf067
Publication Date
8-3-2025
Recommended Citation
Tai DT, Phat LT, Kien TT, Anh NN, Hai NX, Sandwall P, Bradley D, Chow JCL. Enhancing patient positioning accuracy: evaluating daily cone beam computed tomography in the halcyon system. Jpn J Clin Oncol. 2025 Aug 3;55(8):925-932. doi: 10.1093/jjco/hyaf067. PMID: 40263748; PMCID: PMC12319221.