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Dose‐response curve of EBT, EBT2, and EBT3 radiochromic films to synchrotron‐produced monochromatic x‐ray beams

Brown, Thomas A. D. ; Hogstrom, Kenneth R. ; Alvarez, Diane ; [et al.]

Wiley ; 2012

In: Medical Physics Vol. 39, No. 12 ( 2012-12), p. 7412-7417

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In: Medical Physics, Wiley, Vol. 39, No. 12 ( 2012-12), p. 7412-7417

Abstract: This work investigates the dose‐response curves of GAFCHROMIC® EBT, EBT2, and EBT3 radiochromic films using synchrotron‐produced monochromatic x‐ray beams. EBT2 film is being utilized for dose verification in photoactivated Auger electron therapy at the Louisiana State University Center for Advanced Microstructures and Devices (CAMD) synchrotron facility. Methods: Monochromatic beams of 25, 30, and 35 keV were generated on the tomography beamline at CAMD. Ion chamber depth‐dose measurements were used to determine the dose delivered to films irradiated at depths from 0.7 to 8.5 cm in a 10 × 10 × 10‐cm 3 polymethylmethacrylate phantom. AAPM TG‐61 protocol was applied to convert measured ionization into dose. Films were digitized using an Epson 1680 Professional flatbed scanner and analyzed using the net optical density (NOD) derived from the red channel. A dose‐response curve was obtained at 35 keV for EBT film, and at 25, 30, and 35 keV for EBT2 and EBT3 films. Calibrations of films for 4 MV x‐rays were obtained for comparison using a radiotherapy accelerator at Mary Bird Perkins Cancer Center. Results: The sensitivity (NOD per unit dose) of EBT film at 35 keV relative to that for 4‐MV x‐rays was 0.73 and 0.76 for doses 50 and 100 cGy, respectively. The sensitivity of EBT2 film at 25, 30, and 35 keV relative to that for 4‐MV x‐rays varied from 1.09–1.07, 1.23–1.17, and 1.27–1.19 for doses 50–200 cGy, respectively. For EBT3 film the relative sensitivity was within 3% of unity for all three monochromatic x‐ray beams. Conclusions: EBT and EBT2 film sensitivity showed strong energy dependence over an energy range of 25 keV–4 MV, although this dependence becomes weaker for larger doses. EBT3 film shows weak energy dependence, indicating that it would be a better dosimeter for kV x‐ray beams where beam hardening effects can result in large changes in the effective energy.

Type of Medium: Online Resource

ISSN: 0094-2405 , 2473-4209

URL: Article

DOI: 10.1118/1.4767770

Language: English

Publisher: Wiley

Publication Date: 2012

detail.hit.zdb_id: 1466421-5

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Monochromatic beam characterization for Auger electron dosimetry and radiotherapy

Dugas, Joseph P. ; Oves, Scott D. ; Sajo, Erno ; [et al.]

Elsevier BV ; 2008

In: European Journal of Radiology Vol. 68, No. 3 ( 2008-12), p. S137-S141

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In: European Journal of Radiology, Elsevier BV, Vol. 68, No. 3 ( 2008-12), p. S137-S141

Type of Medium: Online Resource

ISSN: 0720-048X

URL: Article

DOI: 10.1016/j.ejrad.2008.04.050

Language: English

Publisher: Elsevier BV

Publication Date: 2008

detail.hit.zdb_id: 2005350-2

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Verification of TG‐61 dose for synchrotron‐produced monochromatic x‐ray beams using fluence‐normalized MCNP5 calculations

Brown, Thomas A. D. ; Hogstrom, Kenneth R. ; Alvarez, Diane ; [et al.]

Wiley ; 2012

In: Medical Physics Vol. 39, No. 12 ( 2012-12), p. 7462-7469

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In: Medical Physics, Wiley, Vol. 39, No. 12 ( 2012-12), p. 7462-7469

Abstract: Ion chamber dosimetry is being used to calibrate dose for cell irradiations designed to investigate photoactivated Auger electron therapy at the Louisiana State University Center for Advanced Microstructures and Devices (CAMD) synchrotron facility. This study performed a dosimetry intercomparison for synchrotron‐produced monochromatic x‐ray beams at 25 and 35 keV. Ion chamber depth‐dose measurements in a polymethylmethacrylate (PMMA) phantom were compared with the product of MCNP5 Monte Carlo calculations of dose per fluence and measured incident fluence. Methods: Monochromatic beams of 25 and 35 keV were generated on the tomography beamline at CAMD. A cylindrical, air‐equivalent ion chamber was used to measure the ionization created in a 10 × 10 × 10‐cm 3 PMMA phantom for depths from 0.6 to 7.7 cm. The American Association of Physicists in Medicine TG‐61 protocol was applied to convert measured ionization into dose. Photon fluence was determined using a NaI detector to make scattering measurements of the beam from a thin polyethylene target at angles 30°–60°. Differential Compton and Rayleigh scattering cross sections obtained from xraylib , an ANSI C library for x‐ray‐matter interactions, were applied to derive the incident fluence. MCNP5 simulations of the irradiation geometry provided the dose deposition per photon fluence as a function of depth in the phantom. Results: At 25 keV the fluence‐normalized MCNP5 dose overestimated the ion‐chamber measured dose by an average of 7.2 ± 3.0%–2.1 ± 3.0% for PMMA depths from 0.6 to 7.7 cm, respectively. At 35 keV the fluence‐normalized MCNP5 dose underestimated the ion‐chamber measured dose by an average of 1.0 ± 3.4%–2.5 ± 3.4%, respectively. Conclusions: These results showed that TG‐61 ion chamber dosimetry, used to calibrate dose output for cell irradiations, agreed with fluence‐normalized MCNP5 calculations to within approximately 7% and 3% at 25 and 35 keV, respectively.

Type of Medium: Online Resource

ISSN: 0094-2405 , 2473-4209

URL: Article

DOI: 10.1118/1.4761870

Language: English

Publisher: Wiley

Publication Date: 2012

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