BEBIG 20 mm

EchoSeed_6733.png

Eye Plaque Description

 The dimensions of the BEBIG 20 mm eye plaque are available here , and are identical to the COMS 20 mm dimensions (given in the TG129 report 1, 2).  This plaque has indentations for 24 seeds within the Silastic insert (seed coordinates here) in the Bio PontoStar backing, as shown in the above figures (generated using egs_view).  The 3D dose distributions for the plaque containing E&Z BEBIG GmbH IsoSeed I25.S16 (Ref. 3) are provided here (normalized per unit seed air kerma strength):

  • HETs1 to HETs24 (1 seed active at a time): Zipped archive
  • HOMO (24 seeds modelled under TG43 conditions) and HETERO (fully-loaded eye plaque in water) : Zipped archive 

 Central axis depth dose curve

Dose along the plaque's central z-axis (CAX) for HOMO, HETERO, HETsum, and HETs1 to HETs24 are presented here. Doses along the CAX are identical for HETs1 to HETs9,  HETs10 to HETs16, HETs17 to HETs21, and HETs22 to HETs23 because radial distance from the seed to the central z-axis is the same; therefore, some representive cases are shown. Overall, HETERO doses are lower than HOMO doses, due to the attenuation and scattering in the plaque backing and insert. For instance, HETERO/HOMO dose ratio at 0.5 cm along the CAX is 0.86 and it is 0.84 at 1 cm. Doses for HETERO and HETsum agree within 0.25%.

Figure 1 : Dose per unit seed air kerma strength along the CAX for HOMO, HETERO, HETsum, and individual active seeds (in presence of other inactive seeds in plaque; HETs1 to HETs24).

Click images for higher res versions

 


 Transverse dose profile

Transverse dose profiles (along x and y axis) at z = 0.5 cm and 1 cm are shown in the following figures.

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x view, z = 0.5 cm
 
z view, z = 1.0 cm
 
y view, z = 0.5 cm
 
y view, z = 1.0 cm
 

 References

1- M. J. Rivard, Sou-Tung Chiu-Tsao, P. T. Finger, A. S. Meigooni, C. S. Melhus, F. Mourtada,  M. E. Napolitano, D. W. O. Rogers, R. M. Thomson, R. Nath, Comparison of dose calculation methods for brachytherapy of intraocular tumors, Med. Phys. 38, 306 – 316,  2011.
2. H. Hedtjarn et al , Monte Carlo-aided dosimetry of the symmetra model I25.S06 I125 , interstitial brachytherapy seed, Med. Phys., 27, 1076-1085, 2000.
3. H. Safigholi, M. J. P. Chamberland, R. E. P. Taylor, C. H. Allen, M. P. Martinov, D. W. O. Rogers, and R. M. Thomson, Update of the CLRP TG-43 parameter database for LDR low_energy brachytherapy sources. Med Phys. 47, 4656-4669, 2020.

 


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