2009
DOI: 10.1118/1.3125820
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Recommendations for clinical electron beam dosimetry: Supplement to the recommendations of Task Group 25

Abstract: The goal of Task Group 25 (TG-25) of the Radiation Therapy Committee of the American Association of.Physicists in Medicine (AAPM) was to provide a methodology and set of procedures for a medical physicist performing clinical electron beam dosimetry in the nominal energy range of 5-25 MeV. Specifically, the task group recommended procedures for acquiring basic information required for acceptance testing and treatment planning of new accelerators with therapeutic electron beams. Since the publication of the TG-2… Show more

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Cited by 136 publications
(137 citation statements)
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References 227 publications
(235 reference statements)
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“…Measured ionization values at the four depths were normalized to the maximum ionization. Percent ionization vs effective depth (depth minus 0.5 r cav ) points were converted into percent dose (% D ) vs depth ( d ) points following AAPM TG‐25 protocol3 and its TG‐70 supplement11 with TG‐51 values for relative stopping powers,12 as implemented in the IBA data acquisition system (IBA, Louvain‐la‐Neuve, Belgium). Lastly, R 80 , R 50 , and R 20 were determined from a nonlinear, least‐squares fit to the four (% D , d ) points in the falloff region using%Dfalse(dfalse)=false(100%Dxfalse)erfc(a1d+a2)2+Dx,where d is the effective depth, D x is the energy‐dependent bremsstrahlung dose percent at R p   + 2 cm, erfc is the complimentary error function, and a 1 and a 2 are parameters determined by the fit using the nonlinear, Levenberg‐Marquardt algorithm option in MATLAB (MathWorks, Natick, MA).…”
Section: Methodsmentioning
confidence: 99%
“…Measured ionization values at the four depths were normalized to the maximum ionization. Percent ionization vs effective depth (depth minus 0.5 r cav ) points were converted into percent dose (% D ) vs depth ( d ) points following AAPM TG‐25 protocol3 and its TG‐70 supplement11 with TG‐51 values for relative stopping powers,12 as implemented in the IBA data acquisition system (IBA, Louvain‐la‐Neuve, Belgium). Lastly, R 80 , R 50 , and R 20 were determined from a nonlinear, least‐squares fit to the four (% D , d ) points in the falloff region using%Dfalse(dfalse)=false(100%Dxfalse)erfc(a1d+a2)2+Dx,where d is the effective depth, D x is the energy‐dependent bremsstrahlung dose percent at R p   + 2 cm, erfc is the complimentary error function, and a 1 and a 2 are parameters determined by the fit using the nonlinear, Levenberg‐Marquardt algorithm option in MATLAB (MathWorks, Natick, MA).…”
Section: Methodsmentioning
confidence: 99%
“…The density is obtained from the HU to density lookup table in the planning system which, in turn, was obtained during eMC commissioning from a HU calibration phantom (Catphan, the Phantom Laboratory, Salem, NY). The accuracy of the CET method has been discussed in AAPM Report of Task Group 70; (22) the approach is useful for simple geometries, but the accuracy is compromised in the presence of complex inhomogeneities. Each iteration of the algorithm includes calculation by the eMC algorithm such that subsequent modifications are based on an accurate dose distribution.…”
Section: Methodsmentioning
confidence: 99%
“…To date, most studies on out‐of‐field dose estimation focus on photon beams 3 , 4 . Nevertheless, electron beams are still an important component of RT, for treating superficial tumors (at depths <5cm) (5) . In high‐energy electron beam RT (425MeV); applicators with cutouts are used to confine the beams to the target area.…”
Section: Introductionmentioning
confidence: 99%