Abstract

This study aimed to test the sensitivity of atransmission detector for online dose monitoring of intensity-modulated radiation therapy (IMRT) for detecting small delivery errors. Furthermore, the correlation of changes in detector output induced by small delivery errors with other metrics commonly employed to quantify the deviations between calculated and delivered dose distributions was investigated. Transmission detector measurements were performed at three institutions. Seven types of errors were induced in nine clinical step-and-shoot (S&S) IMRT plans by modifying the number of monitor units (MU) and introducing small deviations in leaf positions. Signal reproducibility was investigated for short- and long-term stability. Calculated dose distributions were compared in terms of γpassing rates and dose-volume histogram (DVH) metrics (e.g., Dmean, Dx%, Vx%). The correlation between detector signal variations, γpassing rates, and DVH parameters was investigated. Both short- and long-term reproducibility was within 1%. Dose variations down to 1 MU (∆signal 1.1± 0.4%) as well as changes in field size and positions down to 1 mm (∆signal 2.6± 1.0%) were detected, thus indicating high error-detection sensitivity. Amoderate correlation of detector signal was observed with γpassing rates (R2= 0.57-0.70), while agood correlation was observed with DVH metrics (R2= 0.75-0.98). The detector is capable of detecting small delivery errors in MU and leaf positions, and is thus ahighly sensitive dose monitoring device for S&S IMRT for clinical practice. The results of this study indicate agood correlation of detector signal with DVH metrics; therefore, clinical action levels can be defined based on the presented data.

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