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@#<b>Objective</b> To investigate the radiation dose at the entrance of the accelerator treatment room, and to guide the radiation protection detection at the entrance of the treatment room. <b>Methods</b> The FLUKA program was used to build the model of accelerator head and treatment room. Under the simulation conditions of 10 MV and 600 cGy/min for the accelerator, the radiation dose rate inside the entrance of the treatment room was measured at different gantry angles, irradiation conditions, and labyrinths. <b>Results</b> The entrance dose rate with a water tank was significantly higher than that without a water tank under different inner labyrinth wall thicknesses and gantry angles. The entrance dose rate reached the maximum at the inner labyrinth wall thickness of 1800 mm and the gantry angle of 90°. When the inner labyrinth wall thickness was 1000 mm and the gantry angles were 0° and 180°, the entrance dose rate was significantly higher than that at other conditions. The dose rate at the entrance of the treatment room reached (82.26 ± 48.95) μSv/h to (314.09 ± 96.34) μSv/h under the following conditions: the inner labyrinth wall thickness of 1800 mm, the gantry angle of 90°, with a water tank, and the width of the inner labyrinth entrance of 1400-2200 mm. <b>Conclusion</b> The dose at the entrance of the accelerator treatment room mainly comes from the scattering and leakage radiation of the useful wire harness on the patient’s body surface, and the entrance dose rate increases with the increase in the width of the inner labyrinth entrance. In the entrance protection test, the gantry angle should be determined considering the inner labyrinth wall thickness, and the test should be performed at four angles in the uncertain case to ensure the comprehensiveness and accuracy of test results.
RESUMEN
Objective:Cardiovascular interventional therapy for children Statistics and Analysis of X-ray radiation dose to explore low-dose technology in the protection of children. Methods:The hospital nearly two years the use of low-dose technology in the interventional diagnosis and treatment of children, a retrospective analysis of 18 patients under the age of three kinds of treated me institutes common childhood intervention operations radiation levels were nearly two years and two years ago the same operation of the radiation levels in patients with technical analysis, a total of 300 cases. Among them, 60 cases of atrial septal defect occlusion in patients with ventricular septal defect occlusion in patients with 90 cases, patent ductus arteriosus occlusion in patients with 150 cases. Using digital subtraction angiography machine automatically adjusts the exposure conditions. Including entrance dose ED(mGy), dose area product DAP and fluoroscopy time F were measured. Results:The two groups results in the perspective of time, entrance dose, there was a significant difference, nearly 2 years statistics show a significant reduction in radiation dose in children suffered, both between entrance dose and fluoroscopy time was significantly a linear relationship. Area of operation of different doses of the product of cardiovascular intervention there was a significant difference, ventricular septal defect occlusion area dose product is still large. Conclusion:Low-dose technology effectively reduces the radiation dose for children, worthy of promotion.