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Uncertainty of Radiochromic Film Based Relative Dose Measurements


S Devic

S Devic1*, N Tomic1 , D Lewis2 , S Aldelaijan3 , F DeBlois1 , J Seuntjens1 , (1) McGill University, Montreal, QC, Canada (2) RCF Consulting, LLC, Monroe, CT, USA (3) King Faisal Specialist Hospital & Research Center, Riyadh, KSA

Presentations

SU-G-BRB-14 (Sunday, July 31, 2016) 4:00 PM - 6:00 PM Room: Ballroom B


Purpose: Due to inherently non-linear dose response, measurement of relative dose distribution with radiochromic film requires measurement of absolute dose using a calibration curve following previously established reference dosimetry protocol. On the other hand, a functional form that converts the inherently non-linear dose response curve of the radiochromic film dosimetry system into linear one has been proposed recently [Devic et al, Med. Phys. 39 4850-4857 (2012)]. However, there is a question what would be the uncertainty of such measured relative dose.

Methods:If the relative dose distribution is determined going through the reference dosimetry system (conversion of the response by using calibration curve into absolute dose) the total uncertainty of such determined relative dose will be calculated by summing in quadrature total uncertainties of doses measured at a given and at the reference point. On the other hand, if the relative dose is determined using linearization method, the new response variable is calculated as ζ=a(netOD)n/ln(netOD). In this case, the total uncertainty in relative dose will be calculated by summing in quadrature uncertainties for a new response function (σζ) for a given and the reference point.

Results:Except at very low doses, where the measurement uncertainty dominates, the total relative dose uncertainty is less than 1% for the linear response method as compared to almost 2% uncertainty level for the reference dosimetry method. The result is not surprising having in mind that the total uncertainty of the reference dose method is dominated by the fitting uncertainty, which is mitigated in the case of linearization method.

Conclusion:Linearization of the radiochromic film dose response provides a convenient and a more precise method for relative dose measurements as it does not require reference dosimetry and creation of calibration curve. However, the linearity of the newly introduced function must be verified.

Funding Support, Disclosures, and Conflict of Interest: Dave Lewis is inventor and runs a consulting company for radiochromic films


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