Impact of eFOV CT distortion on surface‐guided radiotherapy registration: Phantom‐based analysis
Wooseok Kim, Hyunsoo Jang, Eng Chan Kim, Jonggeun Baek, Byungyong Kim

TL;DR
This study shows that extended field-of-view CT distortion can affect the accuracy of surface-guided radiotherapy, especially when beam centers are near distorted regions.
Contribution
The study provides new baseline data on how eFOV CT distortion impacts SGRT alignment accuracy under controlled phantom conditions.
Findings
eFOV CT distortion caused significant alignment errors in the abdomen when beam centers overlapped distorted regions.
The pelvis showed stable alignment with RMSEs within 2.5 mm and 1.5°, even under eFOV conditions.
Alignment errors exceeded clinical thresholds when beam centers were near distorted regions but remained acceptable when distant.
Abstract
This study evaluated the impact of extended field‐of‐view (eFOV) CT distortion on the alignment accuracy of surface‐guided radiation therapy (SGRT) using CT‐based reference surfaces, and examined the influence of beam center location. An anthropomorphic phantom, segmented into chest, abdomen, and pelvis, was scanned at the center position (sFOV) and at four off‐center positions. The center corresponds to the CT bore isocenter, while the off‐center positions were obtained by placing the phantom boundary 315 mm or 390 mm to the left or right of the CT isocenter to simulate eFOV conditions. Geometric distortion was assessed by measuring external body contour volume. Treatment plans were generated with beam centers at the isocenter and at off‐center positions of 8 cm left and right. SGRT registration accuracy was evaluated from SGRT alignment error and cone‐beam CT (CBCT) alignment error…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Digital Radiography and Breast Imaging · Medical Imaging Techniques and Applications
