辐射研究与辐射工艺学报
輻射研究與輻射工藝學報
복사연구여복사공예학보
Journal of Radiation Research and Radiation Processing
2015年
5期
59-64
,共6页
赵徵鑫%张腾达%张文艺%翟贺争%阮书州%焦玲
趙徵鑫%張騰達%張文藝%翟賀爭%阮書州%焦玲
조징흠%장등체%장문예%적하쟁%원서주%초령
电子顺磁共振%修正因子%指甲%辐射剂量学
電子順磁共振%脩正因子%指甲%輻射劑量學
전자순자공진%수정인자%지갑%복사제량학
Electron paramagnetic resonance%Correction factor%Fingernails%Radiation dosimetry
通过干燥实验考察时间和温度对指甲在受到电离辐射时产生自由基浓度的影响;通过受照剂量实验考察人群指甲含水量与自由基浓度增长率的关系.使用电子顺磁共振方法测量指甲中的自由基浓度.实验结果表明,受照剂量相同时,不同人指甲中含水量的越多,产生的自由基越多,且随着受照剂量增大,离散程度越小,散点图拟合曲线斜率越大.受照剂量为1 Gy、5 Gy和10 Gy的样品散点图拟合曲线斜率分别为0.8670、1.7425 和 1.9628.结果还表明,受照时指甲中角蛋白的含量也会对自由基浓度产生影响.在现有的指甲电子顺磁共振受照剂量估算的基础上,需要根据样品的含水量以及角蛋白含量对结果进行修正,解决个体差异,从而得到更准确的估算结果.
通過榦燥實驗攷察時間和溫度對指甲在受到電離輻射時產生自由基濃度的影響;通過受照劑量實驗攷察人群指甲含水量與自由基濃度增長率的關繫.使用電子順磁共振方法測量指甲中的自由基濃度.實驗結果錶明,受照劑量相同時,不同人指甲中含水量的越多,產生的自由基越多,且隨著受照劑量增大,離散程度越小,散點圖擬閤麯線斜率越大.受照劑量為1 Gy、5 Gy和10 Gy的樣品散點圖擬閤麯線斜率分彆為0.8670、1.7425 和 1.9628.結果還錶明,受照時指甲中角蛋白的含量也會對自由基濃度產生影響.在現有的指甲電子順磁共振受照劑量估算的基礎上,需要根據樣品的含水量以及角蛋白含量對結果進行脩正,解決箇體差異,從而得到更準確的估算結果.
통과간조실험고찰시간화온도대지갑재수도전리복사시산생자유기농도적영향;통과수조제량실험고찰인군지갑함수량여자유기농도증장솔적관계.사용전자순자공진방법측량지갑중적자유기농도.실험결과표명,수조제량상동시,불동인지갑중함수량적월다,산생적자유기월다,차수착수조제량증대,리산정도월소,산점도의합곡선사솔월대.수조제량위1 Gy、5 Gy화10 Gy적양품산점도의합곡선사솔분별위0.8670、1.7425 화 1.9628.결과환표명,수조시지갑중각단백적함량야회대자유기농도산생영향.재현유적지갑전자순자공진수조제량고산적기출상,수요근거양품적함수량이급각단백함량대결과진행수정,해결개체차이,종이득도경준학적고산결과.
The aim is to explore the effects of time and temperature on the generation of free radicals in fingernails exposed to ionizing radiation by drying experiment, and to view the relationship between water content in fingernails of different individuals and the growth-rate of free radical concentrations through irradiation experiment. The free radicals concentrations was measured by electron paramagnetic resonance (EPR). The results showed that the more water content fingernails contained, the more free radicals sample would generate through the same absorbed dose.Meanwhile, as absorbed dose increased, the slope of fitting curve increased with the decreasing dispersion of the data measured from fitting curve. The slopes of fitting curve of samples irradiated at 1 Gy, 5 Gy, and 10 Gy were 0.8670, 1.7425 and 1.9628, respectively. The experimental results also showed that the difference of keratin content within fingernails would probably impact free radical concentration when fingernails were exposed to ionizing radiation. The current dosimetry method needs to be revised according to the difference of water content and keratin content among individuals. By solving individual difference, the more accurate dose reconstruction would be performed.