We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
On the characterization and uncertainty analysis of radiochromic film dosimetry.
- Authors
Bouchard, Hugo; Lacroix, Frédéric; Beaudoin, Gilles; Carrier, Jean-François; Kawrakow, Iwan
- Abstract
Radiochromic film is a dosimeter of choice in applications requiring high spatial resolution, two dimensional measurements, or minimum perturbation of the beam fluence. Since the measurement uncertainty in Gafchromic film dosimetry is thought to be significant compared to that of ionization chambers, a rigorous method to evaluate measurement uncertainties is desired. This article provides a method that takes into account the correlation between fit parameters as well as single dose values in order to obtain accurate uncertainties in absolute and relative measurements. A complete portrait of all sources of uncertainty in Gafchromic film dosimetry is given. The parametrization of variance as a function of the number of averaged pixels is obtained in order to accurately predict the uncertainty as a function of the size of the region of interest. The choice of functional form for the sensitometric curve is based on four criteria and a convergence of global net optical density uncertainty to 0.0013 is demonstrated. A minimum number of 12 points is recommended to characterize the sensitometric curve to a sufficient precision on the uncertainty estimation. Uncertainty levels of 0.9% on absolute dose measurements and 0.45% on relative measurements are achieved using a 12-point calibration curve with 220 cGy and repeating measurements five times. Uncertainties of 0.8% and 0.4% are achievable when using 35 points during film characterization. Ignoring covariance terms is shown to lead to errors in the estimation of uncertainty.
- Subjects
RADIOTHERAPY; THERMAL dosimetry; ESTIMATION theory; MEDICAL radiology; MEDICAL research
- Publication
Medical Physics, 2009, Vol 36, Issue 6, p1931
- ISSN
0094-2405
- Publication type
Article
- DOI
10.1118/1.3121488