posted on 2024-11-15, 14:50authored byKirbie Warrener, Benjamin Hug, Paul Liu, Anna Ralston, Martin A Ebert, David McKenzie, Natalka Suchowerska
The commissioning of treatment planning systems and beam modeling requires measured input parameters. The measurement of relative output in-air, Sc is particularly difficult for small fields. The purpose of this study was to investigate the influence of miniphantom design and detector selection on measured Sc values for small fields and to validate the measurements against Monte Carlo simulations. Measurements were performed using brass caps (with sidewalls) or tops (no sidewalls) of varying heights and widths. The performance of two unshielded diodes (60012 and SFD), EBT2 radiochromic film, and a fiber optic dosimeter (FOD) were compared for fields defined by MLCs (5-100 mm) and SRS cones (4-30 mm) on a Varian Novalis linear accelerator. Monte Carlo simulations were performed to theoretically predict Sc as measured by the FOD. For all detectors, Sc agreed to within 1% for fields larger than 10 mm and to within 2.3% for smaller fields. Monte Carlo simulation matched the FOD measurements for all size of cone defined fields to within 0.5%. Miniphantom design is the most important variable for reproducible and accurate measurements of the in-air output ratio, Sc, in small photon fields (less than 30 mm). Sidewalls are not required for fields less than or equal too 30 mm and tops are therefore preferred over the larger caps. Unlike output measurements in water, Scp, the selection of detector type for Sc is not critical, provided the active dosimeter volume is small relative to the field size
History
Citation
Warrener, K., Hug, B., Liu, P., Ralston, A., Ebert, M. A., McKenzie, D. & Suchowerska, N. (2014). Small field in-air output factors: the role of miniphantom design and dosimeter type. Journal of Medical Physics, 41 021723-021723-8.