Evaluation of dosimetric and spatial accuracy of a virtual cone technique for radiosurgery using linac‐integrated CBCT‐based polymer gel dosimetry
Tenzin Kunkyab, Michael Lamey, Andrew Jirasek, Michael Kudla, Nathan Becker, Benjamin Mou, Derek Hyde

TL;DR
This study tests a virtual cone technique for radiosurgery using gel dosimetry and CBCT imaging to verify its accuracy in delivering radiation.
Contribution
The study introduces a novel method for verifying dosimetric and spatial accuracy using CBCT-based polymer gel dosimetry in radiosurgery.
Findings
The maximum point dose measured with gel was within 1% of the planned dose.
The 50% isodose width measured with gel was slightly narrower than Eclipse's predictions.
End-to-end spatial accuracy testing achieved sub-millimeter precision with the anthropomorphic phantom.
Abstract
This study evaluates the dosimetric and geometric precision of a virtual cone technique using CBCT‐based polymer gel dosimetry, enabling radiation delivery, and imaging readout within an identical spatial coordinate system. We created a C# script for a virtual cone technique that generates a treatment plan with 10 gantry arcs at 0°, 36°, 72°, 288°, and 324° couch angles, with 2 arcs per couch angle using 45° and 135° collimator angles. Two verification plans using Eclipse v15.6 (AcurosXB) were created with 20 Gy at the maximum dose for: (1) a cylindrical gel, with an additional calibration region; (2) a 3D printed anthropomorphic skull phantom with a gel insert. The 50% isodose (10 Gy) width through the central axis of the axial and sagittal planes (SPs) were measured for the gel experiment. The distance between the centers‐of‐masses of the 10 Gy isodose region of the plan and the gel…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Meningioma and schwannoma management · Radiation Therapy and Dosimetry
