Effect of the Collimator Angle on Dosimetric Verification of the Volumetric Modulated Arc Therapy

TL;DR

This study investigates how collimator angles affect the accuracy of dosimetric verification in VMAT plans for head and neck cancer, revealing that angle choice significantly impacts dose delivery precision.

Contribution

It provides empirical evidence on the influence of collimator angles on dosimetric verification accuracy in VMAT, highlighting the importance of angle selection.

Findings

Gamma-index passing rates decrease with larger collimator angles.

Maximum difference in passing rates across angles was 5.6%.

Dose delivery accuracy depends on collimator angle.

Abstract

Collimator angle is usually rotated when planning volumetric modulated arc therapy (VMAT) due to the leakage of radiation between multi-leaf collimator (MLC) leaves. We studied the effect of the collimator angles on the results of dosimetric verification of the VMAT plans for head and neck patients. We studied VMAT plans for 10 head and neck patients. We made 2 sets of VMAT plans for each patient. Each set was composed of 10 plans with collimator angles of 0, 5, 10, 15, 20, 25, 30, 35, 40, 45 degrees. Plans in the first set were optimized individually and plans in the second set shared the 30 degree collimator angle optimization. Two sets of plans were verified using the 2-dimensional ion chamber array MatriXX (IBA Dosimetry, Germany). The comparison between the calculation and measurements were made by the $\gamma$-index analysis. The $\gamma$-index (2\%/2 mm) and (3\%/3 mm) passing rates had negative correlations with the collimator angle. Maximum difference between $\gamma$-index (3\%/3 mm) passing rates of different collimator angles for each patient ranged from 1.46\% to 5.60\% with an average of 3.67\%. There were significant differences (maximum 5.6\%) in the passing rates of different collimator angles. The results suggested that the accuracy of the delivered dose depends on the collimator angle. These findings are informative when choosing a collimator angle in VMAT plans.