Correction of Dose Distribution at Total Body Irradiation using Compensator

  • Kim Jong Sik (Dept. of Radiation Oncology, Samsung Medical Center) ;
  • Cho Hyun Sang (Dept. of Radiation Oncology, Samsung Medical Center) ;
  • Kim Young Kon (Dept. of Radiation Oncology, Samsung Medical Center) ;
  • Cho Jung Keun (Dept. of Radiation Oncology, Samsung Medical Center) ;
  • Ju Sang Kyu (Dept. of Radiation Oncology, Samsung Medical Center) ;
  • Park Young Hwan (Dept. of Radiation Oncology, Samsung Medical Center)
  • 김종식 (삼성서울병원 치료방사선과) ;
  • 조현상 (삼성서울병원 치료방사선과) ;
  • 김영곤 (삼성서울병원 치료방사선과) ;
  • 조정근 (삼성서울병원 치료방사선과) ;
  • 주상규 (삼성서울병원 치료방사선과) ;
  • 박영환 (삼성서울병원 치료방사선과)
  • Published : 1997.11.01

Abstract

The using of compensator is required to adjust the irregular dose distribution due to irregular thickness of the body in Total Body Irradiation. Aluminuim, copper or lead is generally used as compensator. In our study, we would like to introduce a result of the attenuation and compensation effect of radiation use compensator made by duralumin and its clinical use. The thickness of compensator was calculated by the attenustion of radiation, which was measured by polystyrene phantom and ionization chamber(farmer). The compensation effect of radiation was measured by diode detector. All of conditions were set as in real treatment, and the distanc from source to detector was 446 cm. We also made fixation of device to easily attach the compensator to LINAC. Beam spoiler was menufactured and placed on the patient to irradiate sufficient dose to the skin. diode detector were placed on head, neck, chest, umbilicus. pelvis and knee with each their entranced exit points, and datas of dose distribution were evaluated and compared in each points for eleven patients(Feb. 96-Feb. 97). The attenuation rate of irradiation by duralumin compensator was measured as $1.4\%$ in 2mm thickness. The mean attenuation rate was $1.3\%$ per 2mm as increasing the thickness gradually to 50 mm. By using duralunim compensator, dose distribution in each points of body was measured with ${\pm}2.8\%$ by diode detectior. We could easily calculate the thickness of compensator by measuring the attenuation rate of radiation, remarkably reduce the irragularity of dose distribution duo to the thickness of body and magnify the effect of radiation therapy.

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