Syncor, PharmaSeed, BT-103-3

PharmaSeed_BT-103-3.png

Source Description:

Dimensions for the PharmaSeed BT-103-3 source are taken from the study by DeMarco et al 1 . The Syncor BT-103-3 103 Pd seed contains four spherical polystyrene beads with a diameter of 0.550 mm. The polystrene beads are coated in 0.500 Âľm of 103 Pd. The four beads are separated into two pairs by a gold marker that is 0.500 mm in diameter and 1.10 mm long. The source is encapsulated in a titanium casing 0.050 mm thick with an outside diameter of 0.800 mm. The end welds have a maximum thickness of 0.240 mm and are modelled using a 0.400 mm radius Ti hemisphere overlapped with a 0.350 mm radius air sphere with its center shifted by 0.190 mm relative to the Ti sphere. The overall source length is 4.50 mm and the active length used in our model is 3.75 mm. The maximum possible displacement of a source sphere is 0.585 mm along the seed axis and 0.075 mm in the radial direction.


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 30x30x30 cm 3 water phantom, by the air kerma strength per history (scored in vacuo ). As described in ref. 2 , dose rate constants are provided for air kerma strenth calculated using voxels of 2.7x2.7x0.05 cm 3 (WAFAC) and 0.1x0.1x0.05 cm 3 (point) located 10 cm from the source. The larger voxel size averages the air kerma per history over a region covering roughly the same solid angle subtended by the primary collimator of the WAFAC 3,4 at NIST used for calibrating low-energy brachytherapy sources and is likely the most clinically relevant value. The small voxel serves to estimate the air kerma per history at a point on the transverse axis.

Author Method Λ (cGy h-1 U-1) Abs. Uncertainty
R. E. P. Taylor, D. W. O. Rogers 5 WAFAC 0.671 0.002
R. E. P. Taylor, D. W. O. Rogers 5 point 0.669 0.002
J. J. DeMarco et al 1 point (MCNP) 0.659 0.005

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 0.05 cm to 10 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
0.10 10.00 -2.0294E-03 -7.9854E-02 1.8160E+00 1.3112E-01 -3.6732E-02 2.6985E-03 6.0500E-01
Tabulated g(r) data: html Excel

Anisotropy function - F(r,θ):

Anisotropy functions are calculated using the line source approximation and tabulated at radii of 0.1, 0.15, 0.25, 0.5, 0.75, 1, 2, 3, 4, 5, 7.5 and 10 cm and 32 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 ≤ 90°.

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F(00.50,θ)
Anisotropy function
F(01.00,θ)
Anisotropy function
F(05.00,θ)
Anisotropy function
Tabulated F(r,θ) data: html Excel

References:

1. J. J. DeMarco et al , Dosimetric characteristics for three low-energy brachytherapy sources using the Monte Carlo N-Particle code, Med. Phys., 29 , 662 -- 668, 2002
2. 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
3. R. Loevinger, Wide-angle free-air chamber for calibration of low--energy brachytherapy sources, Med. Phys., 20 , 907, 1993
4. S. M Seltzer et al , New National Air-Kerma-Strength Standards for 125 I and 103 Pd Brachytherapy Seeds, J. Res. Natl. Inst. Stand. Technol., 108 , 337 -- 358, 2003
5. R. E. P. Taylor, D. W. O. Rogers, An EGSnrc Monte Carlo-calculated database of TG-43 parameters, Med. Phys., 35 , 4228--4241, 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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