GammaMed, Plus, HDR

GammaMed_Plus.png

Source Description:

Dimensions for the GammaMed Plus source 1,2,3 are taken from the study by Ballester et al . The Plus source consists of a 3.50 mm long 192 Ir core with a diameter of 0.60 mm enclosed in a 0.90 mm diameter AISI 316L stainless steel capsule (density of 7.8 g/cm 3 ). The tip of the encapsulation is a conical section with a height of 0.183 mm and an opening angle of 68 o . The cone is attached to a 0.50 mm long solid cylindrical section followed by a 3.60 mm long hollow section with an inner diameter assumed to be 0.70 mm. Following the hollow section is a 0.30 mm long solid cylindrical section. A total of 6.0 cm of AISI 304 stainless steel cable (density of 5.6 g/cm 3 ) was included in this simulation. The active length of this source is 3.50 mm.

Dose Rate Constant - Λ :

Dose rate constants, Λ , are calculated by dividing the dose to water per history in a (0.1 mm) 3 voxel centered on the reference position, (1 cm,Π/2), in the 80x80x80 cm 3 water phantom, by the air kerma strength per history. Calculations of the air kerma per history are scored in vacuo avoiding the need to correct for attenuation by air. The mass energy absorption coefficients for air used in this calculation are calculated with the composition recommended by TG-43U1 (40% humidity). Air kerma per history is calculated in a 10x10x0.05xcm 3 voxel located 100 cm from the source along the transverse axis and then corrected to give the air kerma per history at a point as described in our previous study 4 . Low energy photons emitted from the source encapsulation are suppressed in the air-kerma calculations by discarding all photons with energy less than 10 keV (i.e. PCUT set to 10 keV in EGSnrc).

Author Method Λ (cGy h-1 U-1) Abs. Uncertainty
R. E. P. Taylor, D. W. O. Rogers 5 10x10x0.05 cm 3 voxel at 100 cm 1.115 0.003
F. Ballester et al 1 extrap 1.118 0.003

Radial dose function - g(r):

The radial dose function, g(r), is calculated using both line and point source geometry functions and tabulated at 36 different radial distances ranging from 0.2 cm to 20 cm. Fit parameters for a modified polynomial expression are also provided 6 .

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radial dose function

Fitting coefficients for g L (r) = (a 0 r -2 + a 1 r -1 +a 2 + a 3 r +a 4 r 2 + a 5 r 3 ) e -a 6 r
Fit range Coefficients
r min (cm) r max (cm) a 0 / cm 2 a 1 / cm a 2 a 3 / cm -1 a 4 / cm -2 a 5 / cm -3 a 6 / cm -1
0.20 20.00 1.5163E-03 -1.0898E-02 1.0070E+00 1.1914E-01 7.2011E-03 1.0235E-04 1.1696E-01
 
Fitting coefficients for g L (r) = a 0 + a 1 r +a 2 r 2 + a 3 r 3 +a 4 r 4 + a 5 r 5
Fit range Coefficients
r min (cm) r max (cm) a 0 a 1 / cm -1 a 2 / cm -2 a 3 / cm -3 a 4 / cm -4 a 5 / cm -5
0.20 20.00 9.8829E-01 1.4763E-02 -3.2470E-03 2.0091E-04 -9.3314E-06 1.8300E-07

Tabulated g(r) data: html Excel

Anisotropy function - F(r,θ):

Anisotropy functions are calculated using the line source approximation and tabulated at 12 radii from 0.25 cm to 20 cm and 47 unique polar angles with a minimum resolution of 5° . The anisotropy factor, φan (r), was calculated by integrating the solid angle weighted dose rate over 0° ϑ = 180° .

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F(00.40,θ)
Anisotropy function
F(01.00,θ)
Anisotropy function
F(05.00,θ)
Anisotropy function
F(10.00,θ)
Anisotropy function
Tabulated F(r,θ) data: html Excel

Along-Away Dose Data:

Along-away dose data are tabulated at 16 away distances from 0 cm to 20 cm and 31 along points from -20 cm to 20 cm. Doses are normalized to s k , the air kerma strength per history.

Tabulated along-away dose data: HTML Excel


Primary and Scatter Separated (PSS) Dose Data: D ii (r,θ):

Primary and Scatter Separated (PSS) dose data are tabulated at 12 radii from 0.25 cm to 20 cm and 47 unique polar angles with a minimum resolution of 5°. High resolution (Δr = 1 mm, ΔΘ = 1° ) primary scatter dose data are also available in .csv files. For the purposes of these calculations, scatter within the source is not considered and any photon escaping the source encapsulation is considered a primary. Only photons which scatter within the phantom are counted in the scatter tallies. Doses are normalized to the total photon energy escaping the encapsulation.

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D ii (r,90°)*r 2
Primary and Scatter Separated (PSS) Dose Data
D ii (00.50,θ)
Primary and Scatter Separated (PSS) Dose Data
D ii (05.00,θ)
Primary and Scatter Separated (PSS) Dose Data
D ii (10.00,θ)
Primary and Scatter Separated (PSS) Dose Data
D ii (20.00,θ)
Primary and Scatter Separated (PSS) Dose Data
Tabulated D ii (r,θ) data: Primary , Single Scat , Multiple Scat , Total , All - Excel
High resolution (1mm/1° ) Tabulated D ii (r,θ) data in .csv format: Primary , Single Scat , Multiple Scat , Total

Energy Weighted Photon Spectrum, (dR/dE)/R

The energy weighted photon spectra are scored as:

(dR(E j )/dE)/R = ΣE i / (ΔE·R)

where E j is the energy of the middle of a bin, E i is the energy of the i th photon escaping the encapsulation or cable with energies between E j ± ΔE/2 and ΔE is the bin width. Energy weighted photon spectra are normalized to the total radiant photon energy, R (total energy of photons escaping the encapsulation/cable) yielding uints of MeV -1 . The spectrum data is available in csv format below. The first line in the csv files contains the number of bins in the file (N), followed by the bin width of all the bins. The next N lines contain the energy of the center of the bin (E j ) followed by the value of (dR(E j )/dE)/R.
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radial dose function
Energy weighted photon spectrum data: csv


References:

1. F. Ballester et al , Technical note: Monte-Carlo dosimetry of the HDR 12i and Plus 192Ir sources, Med. Phys., 28 , 2586--2591, 2001
2. F. Ballester et al , Erratum: "Technical note: Monte-Carlo dosimetry of the HDR 12i and Plus 192Ir sources" [Med. Phys. 28, 2586-2591 (2001)], Med. Phys., 31 , 2372--2372, 2004
3. F. Lliso et al , Technical note: Fitted dosimetric parameters of high dose-rate 192-Ir sources according to the AAPM TG43 formalism, Med. Phys., 30 , 651--654, 2003
4. R. E. P. Taylor et al , Benchmarking BrachyDose: voxel-based EGSnrc Monte Carlo calculations of TG--43 dosimetry parameters, Med. Phys., 34 , 445 -- 457, 2007
5. R. E. P. Taylor, D. W. O. Rogers, EGSnrc Monte Carlo calculated dosimetry parameters for 192 Ir and 169 Yb brachytherapy sources, Med. Phys., 35 , 4933 -- 4944, 2008
6. R. E. P. Taylor, D. W. O. Rogers, More accurate fitting of 125 I and 103 Pd radial dose functions, Med. Phys., 35 , 4242--4250, 2008

 

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