北方药学
北方藥學
북방약학
JOURNAL OF NORTH PHARMACY
2014年
1期
62-63
,共2页
平板探测器%辐射剂量%图像质量
平闆探測器%輻射劑量%圖像質量
평판탐측기%복사제량%도상질량
Flat-panel detector%Radiation dose%Image quality
目的:比较碘化铯和硫氧化钆2种闪烁体材料平板探测器的DR系统在不同成像剂量条件下图像质量的差别。方法:以碘化铯为闪烁体材料的平板探测器系统和以硫氧化钆为闪烁体材料的平板探测器系统分别摄取对比度-细节体模(CDRAD 2.0)在相近成像剂量条件下的X射线图像,计算所对应的成像剂量下图像质量因子反数值(image quality figure inverse,IQFinv),应用ANOVA分析2平板探测器对比度及细节检测能力,应用Wilcoxon检验分析、比较2种平板探测器的图像信息检测能力的差别。结果:在一定剂量范围内,2种平板探测器的图像质量均随着成像剂量的增加而增加(P<0.001)。在管电流量不同mAs时,2种非晶硅DR平板探测器的IQFinv值差异无统计学意义(P>0.05)。结论:成像剂量相同时,2种非晶硅平板探测器具有近似的图像质量,图像质量的提高与成像剂量的增加并不成线性关系。
目的:比較碘化銫和硫氧化釓2種閃爍體材料平闆探測器的DR繫統在不同成像劑量條件下圖像質量的差彆。方法:以碘化銫為閃爍體材料的平闆探測器繫統和以硫氧化釓為閃爍體材料的平闆探測器繫統分彆攝取對比度-細節體模(CDRAD 2.0)在相近成像劑量條件下的X射線圖像,計算所對應的成像劑量下圖像質量因子反數值(image quality figure inverse,IQFinv),應用ANOVA分析2平闆探測器對比度及細節檢測能力,應用Wilcoxon檢驗分析、比較2種平闆探測器的圖像信息檢測能力的差彆。結果:在一定劑量範圍內,2種平闆探測器的圖像質量均隨著成像劑量的增加而增加(P<0.001)。在管電流量不同mAs時,2種非晶硅DR平闆探測器的IQFinv值差異無統計學意義(P>0.05)。結論:成像劑量相同時,2種非晶硅平闆探測器具有近似的圖像質量,圖像質量的提高與成像劑量的增加併不成線性關繫。
목적:비교전화색화류양화구2충섬삭체재료평판탐측기적DR계통재불동성상제량조건하도상질량적차별。방법:이전화색위섬삭체재료적평판탐측기계통화이류양화구위섬삭체재료적평판탐측기계통분별섭취대비도-세절체모(CDRAD 2.0)재상근성상제량조건하적X사선도상,계산소대응적성상제량하도상질량인자반수치(image quality figure inverse,IQFinv),응용ANOVA분석2평판탐측기대비도급세절검측능력,응용Wilcoxon검험분석、비교2충평판탐측기적도상신식검측능력적차별。결과:재일정제량범위내,2충평판탐측기적도상질량균수착성상제량적증가이증가(P<0.001)。재관전류량불동mAs시,2충비정규DR평판탐측기적IQFinv치차이무통계학의의(P>0.05)。결론:성상제량상동시,2충비정규평판탐측기구유근사적도상질량,도상질량적제고여성상제량적증가병불성선성관계。
Objective:To assess and compare the image quality at different exposures ettings using cesium iodide (CsI) flat-panel detector digital radiography system and GOS flat-panel detector digital radiography system. Methods: The images of contrast-detail phantom (CDRAD2.0) were taken at different exposure settings for two flat-panel detector systems. The image quality figure inverse (IQFinv) for different dose settings was calculated. The detectability of two system in contrast and detail was analysed using ANOVA. The statistical significance was evaluated using the Wilcoxon test between two system. Results: At certain dose range, the image quality improved with radiation dose increased for two amorphous silicon flat-panel detector system(P<0.001). At different mAs value of tube current dosage, the IQFinv was no of statistical significance between two system (P>0.05). Conclusion:At the same radiation dose, two flat-panel detector systems have approximately image quality. There is not linear relevance between image quality improvement and radiation dose augment.
