Alpha-Omega, Ir192 LDR Platinum-Clad

IsoAid, Advantage, IAPd-103A

Source Description:

Dimensions for the Alpha-Omega (AO) ¹⁹²Ir LDR Platinum-clad source are taken from the study by Ballester ¹ and Perez-Calatayud et al ². The core source consists of a 3 mm long active core (elemental composition by mass: 90% Pt, 10% Ir, with an assumed density of 21.45 g/cm³) with a diameter of 0.3 mm, surrounded by a 0.1 mm thick cladding of Pt. The core is housed in a 0.1 mm thick cylindrical platinum capsule (density 8.02 g/cm³) with a total diameter of 0.5 mm, and a total length of 3 mm. The active length of this source is 3 mm. The mean photon energy calculated on the surface of source is 360.72 keV with statistical uncertainties < 0.02% .

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 a 80x80x80 cm³ water phantom, by the air-kerma strength per history factor (scored in vacuo). Air kerma per history is always calculated using a tracklength estimator in a 10x10x0.05 cm³ air voxel located in vacuo on the transverse axis 100 cm away from the source and then corrected (k_r² = 1.00217) for the lateral and thickness dimensions of the scoring voxel to give the air kerma per history on the central axis at a point 100 cm from the source’s mid-point as described in our previous study ^3, 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). egs_brachy uncertainties are only statistical uncertainties (k=1).

Author	Method	Λ (cGy h^-1 U^-1)	Abs. Uncertainty
Safigholi et al ⁵	10x10x0.5 cm³ voxel at 100 cm	1.1115	0.0002
Ballester et al ¹	GEANT4	1.111	0.001
Mainegra et al ⁶	EGS4	1.111	0.006

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.

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Anisotropy function - F(r,θ):

Anisotropy functions are calculated using the line source approximation and tabulated at 13 radii from 0.25 cm to 20 cm and 47 unique polar angles with a resolution of 5° or better. The anisotropy factor, φ_an (r), was calculated by integrating the solid angle weighted dose rate over 0° ≤ ϑ ≤ 180°.

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F(0.5,θ)	F(1.00,θ)
F(5.00,θ)	F(10.00,θ)

Along-Away Dose Data:

Along-away dose data are tabulated at 16 away distances from 0 cm to 20 cm and 29 along points from -20 cm to 20 cm. Doses are normalized to S_K , the air-kerma strength.

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

Primary and Scatter Separated (PSS) dose data are tabulated at 12 radii from 0.3 cm to 20 cm and 47 unique polar angles with a resolution of 5° or better. High resolution (Δr = 1 mm, ΔΘ = 1°) primary scatter dose data are also available in .csv files. For the purposes of these calculations, 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. The "ii" subscript labeled in the D_ii(r, θ) represent the total scatter as D_to(r, θ), the primary photons as D_pr(r, θ), the single scatter photon as D_ss(r, θ), and the multiple scatter photons as D_ms (r, θ) .

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High resolution (1mm/1°) Tabulated Dii (r,θ) data in .csv format: Zipped archive

Photon Energy Spectra

Photon energy spectra generated by the source model are calculated using the egs_brachy surface count scoring option to get the spectrum on the surface of the source. The relative counts here are the counts per 1 keV bin normalized to 1 count total in the spectrum.The MC calculations have a statistical uncertainty less than 0.002% on the mean energy. The spectrum data are available in xmgrace format below.

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Photon energy spectrum on the source surface: xmgrace

Tabulated data:

Tabulated data are available in .xlsx format: Excel

References:

1. F. Ballester, D. Granero, J. Pérez-Calatayud, E. Casal, and V. Puchades, Monte Carlo dosimetric study of Best Industries and Alpha Omega Ir-192 brachytherapy seeds, Med. Phys. 31, 3298–3305, 2004
2. J. Perez-Calatayud, F. Ballester, P. Das, L. A. DeWerd, G. S. Ibbott, A. S. Meigooni, Z. Ouhib, M. J. Rivard, R. S. Sloboda, J. F. Williamson, Dose Calculation for Photon-Emitting Brachytherapy Sources with Average Energy Higher than 50 keV: Full Report of the AAPM and ESTRO, 2012 by AAPM, ISBN: 978-1-936366-17-0
3. 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
4. D. W. O. Rogers, Inverse square corrections for FACs and WAFACs, Appl. Radiat. Isot.,153 ,108638, 2019
5. H. Safigholi, M. J. P. Chamberland, R. E. P. Taylor, M. P. Martinov, D. W. O. Rogers, and R. M. Thomson, Update of the CLRP TG-43 parameter database for High Energy brachytherapy, to be published (Current calculation).
6. E Mainegra, R. Capote, and E Lopez, Dose rate constants for ¹²⁵I, ¹⁰³Pd, ¹⁹²Ir and ¹⁶⁹Yb brachytherapy sources: an EGS4 Monte Carlo study, Phys. Med. Biol.43,1557–1566,1998

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Carleton Laboratory for Radiotherapy Physics

*D_ii (r,90^°)r ²**	D_ii (1.00,θ)
D_ii (5.00,θ)	D_ii (10.00,θ)