Monitor backscatter factors for the Varian 21EX and TrueBeam linear accelerators: measurements and Monte Carlo modeling

TL;DR

This study measures and models monitor backscatter factors for Varian 21EX and TrueBeam linacs, enabling more accurate radiotherapy dose calculations without needing detailed treatment head geometry.

Contribution

The paper introduces a new experimental method to measure MBSFs and incorporates these into Monte Carlo models for linacs with known or unknown head geometry.

Findings

Measured MBSFs agree with Monte Carlo calculations within uncertainties.

MBSF variation across field sizes is smaller for TrueBeam than 21EX.

Derived Dchforward factors improve dose calculation accuracy.

Abstract

Purpose/Objective: Backscattered radiation (BSR) into linac monitor chamber has to be accounted for in radiotherapy dose calculations. In Monte Carlo (MC) calculations, the BSR can be modeled explicitly, but only when treatment head geometry is available. In this study, monitor backscatter factors (MBSFs), defined as the ratio of the charge collected in the monitor chamber for a reference field to that of a given field, have been evaluated experimentally and incorporated into MC modelling of linacs with either known or unknown treatment head geometry. Materials and methods: A telescopic technique similar to that by Kubo (1989) was used. However, instead of lead slits, a 1.8 mm diameter collimator and a small (2 mm diameter) detector positioned at extended SDD were used. This setup provided a field of view to the source of less than 3.1 mm and allowed for MBSF measurements of open fields from 1 x 1 to 40 x 40 cm2. MBSFs were also explicitly modeled in MC calculations using BEAMnrc and DOSXYZnrc codes for 6MV and 18MV beams of a Varian 21EX linac. A method for deriving the Dchforward values that are used in MC absolute dose calculations was demonstrated. These values were derived from measured MBSFs for two 21EX and four TrueBeam energies. Results: MBSFs were measured for 6MV and 18MV beams from Varian 21EX, and for 6MV, 10MV-FFF, 10MV, and 15MV beams from Varian TrueBeam linacs. For the open field sizes modeled in this study for the 21EX, the measured MBSFs agreed with MC calculated values within combined statistical (0.4%) and experimental (0.2%) uncertainties. Variation of MBSFs across field sizes was about a factor of two smaller for the TrueBeam compared to 21EX Varian linacs. Conclusions: Measured MBSFs and the derived Dchforward factors allow for the incorporation of the BSR effect into accurate radiotherapy dose calculations without explicit backscatter modelling.