Azizi Mona, Mowlavi Ali Asghar, Ghorbani Mahdi, Davenport David
Department of Physics, School of Sciences, Hakim Sabzevari University, Sabzevar, Iran.
Department of Physics, School of Sciences, Hakim Sabzevari University, Sabzevar, Iran; International Centre for Theoretical Physics, Trieste, Italy.
J Cancer Res Ther. 2017 Jul-Sep;13(3):538-543. doi: 10.4103/0973-1482.187245.
The purpose of this study is to evaluate the effect of various dental restoration materials on dose distribution in radiotherapy of head and neck cancer with 6 MV photon beam of a medical linac.
The dental restorations include tooth, tooth with amalgam, tooth with Ni-Cr alloy, and tooth with Ceramco. Dose perturbation due to the dental restorations on 6 MV beam of Siemens Primus linac was calculated by MCNPX Monte Carlo code. These dental materials were separately simulated in a cubic water phantom.
Photon percentage dose change in the presence of tooth, tooth with amalgam, tooth with Ni-Cr alloy, and tooth with Ceramco was calculated at various depths on the central axis of the beam relative to the dose in water. In another evaluation, the absolute dose (cGy) for water, tooth, tooth with amalgam, tooth with Ni-Cr alloy, and tooth with Ceramco was obtained by calculating 100 cGy dose at 0.75 cm depth in the water phantom.
Based on the calculations performed, maximum percentage dose change due to backscattering was 11%, 8%, 6%, and 4% for amalgam, Ni-Cr alloy, Ceramco and tooth at depth of 0.75 cm, respectively. The maximum dose perturbation by amalgam is due to its higher mass density and atomic number.
Ignoring the effect of dental restoration compositions on dose distribution causes discrepancy in clinical treatment planning system calculations.
本研究旨在评估各种牙科修复材料对医用直线加速器6兆伏光子束对头颈部癌放疗剂量分布的影响。
牙科修复体包括牙齿、含汞合金的牙齿、含镍铬合金的牙齿和含Ceramco的牙齿。利用MCNPX蒙特卡罗代码计算了西门子Primus直线加速器6兆伏射束因牙科修复体引起的剂量扰动。这些牙科材料分别在立方水体模中进行模拟。
计算了在射束中心轴上不同深度处,相对于水中剂量,存在牙齿、含汞合金的牙齿、含镍铬合金的牙齿和含Ceramco的牙齿时光子百分比剂量变化。在另一项评估中,通过计算水体模中0.75厘米深度处的100厘戈瑞剂量,获得了水、牙齿、含汞合金的牙齿、含镍铬合金的牙齿和含Ceramco的牙齿的绝对剂量(厘戈瑞)。
根据计算结果,在0.75厘米深度处,汞合金、镍铬合金、Ceramco和牙齿因反向散射引起的最大百分比剂量变化分别为11%、8%、6%和4%。汞合金引起的最大剂量扰动是由于其较高的质量密度和原子序数。
忽略牙科修复成分对剂量分布的影响会导致临床治疗计划系统计算出现差异。