TY - JOUR
T1 - SU‐E‐T‐141
T2 - Dosimetry and Error Analysis of HDR Brachytherapy Tandem Applicator Using A16 Microchamber and Monte Carlo Simulation
AU - Amoush, A.
PY - 2012/6
Y1 - 2012/6
N2 - Purpose: Absolute dosimetry with the associated uncertainties for 192Ir High Dose Rate (HDR) Brachytherapy Tandem applicator are presented using A16 microchamber and Monte Carlo simulation. The results are compared to the TG‐43 protocol. Methods: An A16 Exradin MicroChamber, MCNPX 2.6 Monte Carlo simulation code and PTW farmer chamber with an ADCL calibration coefficient were used in this work. The A16 microchamber was calibrated using MCNPX simulation and PTW farmer chamber. Statistical and systematic uncertainty analyses associated with each experimental technique were analyzed quantitatively using MCNPX 2.6 to evaluate source positional error, Tandem positional error, phantom size effect, volume averaging, stem and wall effects, and Tandem effect. Results: A16 microchamber was calibrated according to the AAPM TG‐21 protocol and resulted in a value of 3.21E+09 Gy/C for Ngas in 60CO. To use the A16 with 192Ir spectrum, a correction factor of 1.13 was generated along the source transverse axis using MCNPX to account for energy difference. Absolute dose and uncertainty analyses along the transverse axis of a Tandem applicator were calculated using MCNPX and A16 microchamber and compared to the TG‐43 protocol. The generated overall uncertainties associated with the A16 microchamber are 22%, 17%, 15%, 15%, 16%, 17%, and 19% at 1cm, 2cm, 3cm, 4cm, and 5cm, respectively. Conclusions: In this work, the author investigated the absolute dosimetry for 192Ir HDR brachytherapy for a Tandem applicator using A16 microchamber and compared the results to the TG‐43 protocol. A16 microchamber has an effective volume of 0.007cc which makes it suitable to measure extremely small field sizes and enables high spatial resolution while minimizing volume averaging near the source. Furthermore, the author also investigated and analyzed the systematic and statistical uncertainties associated with A16 experimental dosimetry as recommended by AAPM TG‐138 and GEC‐ESTRO. Based on this work, dosimetry of HDR brachytherapy using A16 microchamber can be used, within uncertainties, as an alternative or redundant for the LiF TLDs.
AB - Purpose: Absolute dosimetry with the associated uncertainties for 192Ir High Dose Rate (HDR) Brachytherapy Tandem applicator are presented using A16 microchamber and Monte Carlo simulation. The results are compared to the TG‐43 protocol. Methods: An A16 Exradin MicroChamber, MCNPX 2.6 Monte Carlo simulation code and PTW farmer chamber with an ADCL calibration coefficient were used in this work. The A16 microchamber was calibrated using MCNPX simulation and PTW farmer chamber. Statistical and systematic uncertainty analyses associated with each experimental technique were analyzed quantitatively using MCNPX 2.6 to evaluate source positional error, Tandem positional error, phantom size effect, volume averaging, stem and wall effects, and Tandem effect. Results: A16 microchamber was calibrated according to the AAPM TG‐21 protocol and resulted in a value of 3.21E+09 Gy/C for Ngas in 60CO. To use the A16 with 192Ir spectrum, a correction factor of 1.13 was generated along the source transverse axis using MCNPX to account for energy difference. Absolute dose and uncertainty analyses along the transverse axis of a Tandem applicator were calculated using MCNPX and A16 microchamber and compared to the TG‐43 protocol. The generated overall uncertainties associated with the A16 microchamber are 22%, 17%, 15%, 15%, 16%, 17%, and 19% at 1cm, 2cm, 3cm, 4cm, and 5cm, respectively. Conclusions: In this work, the author investigated the absolute dosimetry for 192Ir HDR brachytherapy for a Tandem applicator using A16 microchamber and compared the results to the TG‐43 protocol. A16 microchamber has an effective volume of 0.007cc which makes it suitable to measure extremely small field sizes and enables high spatial resolution while minimizing volume averaging near the source. Furthermore, the author also investigated and analyzed the systematic and statistical uncertainties associated with A16 experimental dosimetry as recommended by AAPM TG‐138 and GEC‐ESTRO. Based on this work, dosimetry of HDR brachytherapy using A16 microchamber can be used, within uncertainties, as an alternative or redundant for the LiF TLDs.
UR - http://www.scopus.com/inward/record.url?scp=85024814755&partnerID=8YFLogxK
U2 - 10.1118/1.4735199
DO - 10.1118/1.4735199
M3 - Article
AN - SCOPUS:85024814755
SN - 0094-2405
VL - 39
SP - 3735
JO - Medical Physics
JF - Medical Physics
IS - 6
ER -