A comparison of the shielding effectiveness of silicone oil vitreous substitutes when used with Palladium‐103 and Iodine‐125 eye plaques

Purpose Episcleral eye plaques provide excellent local control of ocular melanoma, but vision sparing remains a significant problem with 30% or more of patients experiencing significant visual acuity degradation. The use of silicone oil shielding with Iodine‐125 plaques has previously been reported to improve critical structure sparing. We hypothesized that the use of Palladium‐103 would improve the shielding effectiveness of silicone oil due to the strong energy dependence of the photoelectric effect. This Monte Carlo simulation study reports a comparison of the shielding effects of silicone oil when used in conjunction with Pd‐103 and with I‐125 plaques. Materials and methods GEANT 4 was used to simulate eye plaque treatments to an eye with either water‐equivalent vitreous humor, or silicone oil in place of the vitreous humor. Two solid gold plaques, 15 and 23 mm, were simulated loaded with I‐125 and with Pd‐103 source seeds. Seed activity was normalized such that 85 Gy was delivered to the tumor apex in the water‐equivalent cases. Tumor apex dose, central axis dose, and inner sclera dose reductions with silicone oil were evaluated. Results Silicone oil resulted in an underdosing to the tumor apex of 6.1% and 7.5% in the 15 mm plaque for I‐125 and Pd‐103, respectively, and 3.4% and 4.3% in the 23 mm plaque for I‐125 and Pd‐103, respectively. When renormalized to 85 Gy to the tumor apex in all scenarios, silicone oil reduced the dose to the inner sclera 90° from the plaque by 19–32% for the 15 and 23 mm plaques using I‐125, and by 33–65% for the 15 and 23 mm plaques using Pd‐103. Conclusions The combination of silicone oil and Pd‐103 eye plaques offers the potential for greatly improved sparing to normal structures compared to Pd‐103 plaques alone or I‐125 plaques with or without silicone oil.