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Objective:To study the radiation dose rate and effective dose in ambient environment due to 125I seed implantation in the treatment of the patients suffering abdominal and pelvic tumors, so as to provide reference for occupational protection of different groups. Methods:Within 24 hours after operation, the radiation dose rate to 42 patients with abdominal and pelvic tumor with 125I seed implantation was monitored by using pocket dosimeter. The relationships between the total activity in the implanted particles and the measured dose rate, as well as between the implanted depth and the dose rate under the standard activity, were obtained by curve fitting. According to the formula, the relationship between the dose rate and the warning time was calculated. Results:The dose rates at 30 cm, 50 cm and 100 cm of vertical particle implantation site were (6.92±2.87), (4.10±1.62) and (1.30±0.48) μSv/h, respectively ( χ2=73.71, P<0.05). The dose rates on the left and right sides were (0.378±0.156) and (0.384±0.153) μSv/h at 30 cm, (0.170±0.089) and (0.17±0.086) μSv/h at 50 cm, (0.039 ±0.014) and (0.043±0.017) μSv/h at 100 cm, respectively ( χ2=76.19, 76.33, P<0.05). There was a linear relationship between the dose rate at the vertical particle implantation site and the total activity in the implanted particles, and between the dose rate and the implantation depth under the standard activity. The relationship between the warning time and the dose rate to adults in the same bed, co-workers, minors in the same bed and pregnant women were as follows: t ( d)=-106.616+ 83.779ln D( t), t ( d)=26.556+ 85.933ln D ( t), t( d)=3.088+ 85.017ln D( t). Conclusions:After 125I seed implantation, the radiation dose in the ambient environment is low, ensuring the radiation safety; and the measured dose rate decreases with the decrease in the total activity in the implanted particle and the increase in the implantation depth; at the same time, the warning time for different groups is calculated according to the measured dose rate or the total activity in the implanted particle and the depth of the implanted particle, so as to carry out individualized protection.
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Objective To explore the effect of dose rate of X-rays on migration of non-small cell lung cancer (NSCLC) cells and provide the experimental basis for developing radiotherapy scheme. Methods Human NSCLC cell line A549 was cultured and irradiated with X-rays at dose of 6 Gy from a linear accelerator. The dose rates of 1, 2, 4 and 6 Gy/min were selected. Monolayer adherent cells were scratched and photographed at 0 hour and 24 hours under a microscope to measure the scratch width. Results After 24 hours, the scratch width of nonirradiated control cells was (640.7±8.1)μm. The scratch widths of cells were different when cells were irradiated with X-rays of various dose rates. Scratch widths were the largest in cells irradiated at dose rates of 1 Gy/min [(691.4±7.6)μm] and 6 Gy/min [(691.8±12.1)μm]. The scratch width was (666.2±1.3) μm of X-rays at 4 Gy/min, and there were significant differences compared with nonirradiated group (all P< 0.01), which suggested that inhibitory effect of X-rays at dose rates on A549 cell migration was obvious. However, the scratch width of cells irradiated at 2 Gy/min [(643.5 ±6.8) μm] had no difference compared with the control cells (t=-0.336, P=0.742). Conclusions The effect of X-rays irradiation on cell migration of human NSCLC cell line A549 is related with irradiated dose rate. The effect of different dose rates on cell migration is significantly different. Selecting appropriate dose rates for irradiation may help to improve the efficacy of radiotherapy.
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Objective To explore the effects of different dose rates of X-ray under the same dose on cell clonogenic formation in non-small-cell lung cancer cell line A549 in order to provide experimental basis for clinical radiotherapy plan. Methods The A549 cells were cultured at low density and irradiated with X-rays at dose of 4 Gy and selected dose rates of 1, 2, 4 and 6 Gy/min, respectively, from a linear accelerator. The 8th day after irradiation, the cells were fixed and stained with Giemsa solution, and colonies containing at least 50 cells were counted. The plating efficiency and surviving fraction were calculated. Results The clonogenic number in non-irradiated cells was 88.6±4.6. The numbers were significantly reduced in irradiated cells at dose rate 1, 2, 4 and 6 Gy/min (12.3±3.4, 9.0±0.8, 5.6±1.0, 11.5±1.7, respectively) than that in non-irradiated control cells (F=678.799, P<0.05). The plating efficiencies were decreased in irradiated cells, especially in 4 Gy/min irradiated cells, which was lower than that in any of the other three dose rate groups (P< 0.05). Conclusions Though at same radiation dose, cancer cells have different clonogenic formation efficiency when irradiation with X-ray at different dose rates. Thus, treatment with optimal dose rate may improve the radiotherapy efficacy.
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Objective To determine the real time radiation dose rate displayed on DSA equipment in interventional management for patients with coronary heart disease in order to provide medical staff with useful basis to reasonably control the radiation dose. Methods A total of 30 patients with coronary heart disease, who received interventional treatment at authors’ hospital in September 2014 with a GE DSA unit, were randomly selected. Intraoperative radiation dose rates when fluoroscopy was converted to movies , which were displayed on DSA at respective sequence, were determined, and the results were analyzed and compared. Results The fluoroscopy radiation dose rate ranged from 18.5 to 212.0 mGy/min, the mean value was (114.7±42.1) mGy/min;while the radiation dose rate of movies varied from 216 to 1 691 mGy/min, with a mean value of(970.1±298.4) mGy/min. The overall mean fluoroscopy-to-movies radiation dose ratio was 1 ∶8.5. The larger the digital flat panel detector area was , the bigger the mean radiation dose rate would be and the more obvious increase in the mean radiation dose rate of movies than that of the fluoroscopy would be observed; the mean radiation dose rate of fluoroscopy was lower than that of movies , and the difference was significantly. Conclusion During the performance of coronary intervention , the medical staff should make reasonable choice of the equipment and closely observe the dynamic real-time display of the radiation dose rate, promptly adjust the inspection mode and the controllable parameters when it is needed , make immediate evaluation of dose level that might cause radiation injury to the patient , and reasonably control the radiation dose to reduce the effects of ionizing radiation on human health.
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Objective To investigate the typical value of gamma-radiation dose rate and its confidence interval in tank-transported copper ore by using bootstrap resampling techniques. Methods Bootstrap resampling method, coupled with kernel density estimation, introduced to acquire the typical value of gamma-radiation dose rate in copper ore. Results The typical value of gamma-radiation dose rate in copper ore was expressed as the central tendency of the means of resampling, and two kinds of confidence interval, empirical percentile and bias-corrected accelerated confidence interval, were provided as standard error. Conclusion It is clearly demonstrated that this method has an advantage to give a robust description in explanation of central tendency and variation range of gamma-radiation dose rate data profiles.