SU‐E‐T‐223: High‐Energy Photon Standard Dosimetry Data: A Quality Assurance Tool

Purpose: Describe the Radiological Physics Center's (RPC) extensive standard dosimetry data set determined from on‐site audits measurements.Method and Materials: Measurements were made during on‐site audits to institutions participating in NCI funded cooperative clinical trials for 44 years using a 0.6cc cylindrical ionization chamber placed within the RPC's water tank. Measurements were made on Varian, Siemens, and Elekta/Philips accelerators for 11 different energies from 68 models of accelerators. We have measured percent depth dose, output factors, and off‐axis factors for 123 different accelerator model/energy combinations for which we have 5 or more sets of measurements. The RPC analyzed these data and determined the ‘standard data’ for each model/energy combination. The RPC defines ‘standard data’ as the mean value of 5 or more sets of dosimetry data or agreement with published depth dose data (within 2%). Results: The analysis of these standard data indicates that for modern accelerator models, the dosimetry data for a particular model/energy are within ï,±2%. The RPC has always found accelerators of the same make/model/energy combination have the same dosimetric properties in terms of depth dose, field size dependence and off‐axis factors. Because of this consistency, the RPC can assign standard data for percent depth dose, average output factors and off‐axis factors for a given combination of energy and accelerator make and model. Conclusions: The RPC standard data can be used as a redundant quality assurance tool to assist Medical Physicists to have confidence in their clinical data to within 2%. The next step is for the RPC to provide a way for institutions to submit data to the RPC to determine if their data agrees with the standard data as a redundant check. This work was supported by PHS grants CA10953 awarded by NCI, DHHS.