高Z元素的CT图像对比度:体模成像研究及临床意义
CT Image Contrast of High-Z Elements: Phantom Imaging Studies and Clinical Implications.
作者信息
FitzGerald Paul F, Colborn Robert E, Edic Peter M, Lambert Jack W, Torres Andrew S, Bonitatibus Peter J, Yeh Benjamin M
机构信息
From the Radiation Systems Lab (P.F.F.), Emission Chemistry and Catalysis Lab (R.E.C., P.J.B.), Department of CT, X-ray and Functional Imaging (P.M.E.), and GE Ventures (A.S.T.), GE Global Research, One Research Circle, Niskayuna, NY 12309; and Department of Radiology and Biomedical Imaging, University of California-San Francisco, San Francisco, Calif (J.W.L., B.M.Y.).
出版信息
Radiology. 2016 Mar;278(3):723-33. doi: 10.1148/radiol.2015150577. Epub 2015 Sep 10.
PURPOSE
To quantify the computed tomographic (CT) image contrast produced by potentially useful contrast material elements in clinically relevant imaging conditions.
MATERIALS AND METHODS
Equal mass concentrations (grams of active element per milliliter of solution) of seven radiodense elements, including iodine, barium, gadolinium, tantalum, ytterbium, gold, and bismuth, were formulated as compounds in aqueous solutions. The compounds were chosen such that the active element dominated the x-ray attenuation of the solution. The solutions were imaged within a modified 32-cm CT dose index phantom at 80, 100, 120, and 140 kVp at CT. To simulate larger body sizes, 0.2-, 0.5-, and 1.0-mm-thick copper filters were applied. CT image contrast was measured and corrected for measured concentrations and presence of chlorine in some compounds.
RESULTS
Each element tested provided higher image contrast than iodine at some tube potential levels. Over the range of tube potentials that are clinically practical for average-sized and larger adults-that is, 100 kVp and higher-barium, gadolinium, ytterbium, and tantalum provided consistently increased image contrast compared with iodine, respectively demonstrating 39%, 56%, 34%, and 24% increases at 100 kVp; 39%, 66%, 53%, and 46% increases at 120 kVp; and 40%, 72%, 65%, and 60% increases at 140 kVp, with no added x-ray filter.
CONCLUSION
The consistently high image contrast produced with 100-140 kVp by tantalum compared with bismuth and iodine at equal mass concentration suggests that tantalum could potentially be favorable for use as a clinical CT contrast agent.
目的
在临床相关成像条件下,对潜在有用的造影剂元素所产生的计算机断层扫描(CT)图像对比度进行量化。
材料与方法
将七种高密度元素(包括碘、钡、钆、钽、镱、金和铋)以等质量浓度(每毫升溶液中活性元素的克数)配制成水溶液中的化合物。所选择的化合物使得活性元素在溶液的X射线衰减中占主导地位。在CT扫描时,于改良的32厘米CT剂量指数体模内,在80、100、120和140千伏峰值电压下对这些溶液进行成像。为模拟更大的体型,应用了0.2毫米、0.5毫米和1.0毫米厚的铜滤过器。测量CT图像对比度,并针对所测浓度以及某些化合物中氯的存在情况进行校正。
结果
在某些管电压水平下,每种测试元素所提供的图像对比度均高于碘。在对平均体型及更大体型成年人临床适用的管电压范围内,即100千伏峰值电压及更高电压下,钡、钆、镱和钽与碘相比,图像对比度持续增加,在100千伏峰值电压时分别显示增加39%、56%、34%和24%;在120千伏峰值电压时分别增加39%、66%、53%和46%;在140千伏峰值电压时分别增加40%、72%、65%和60%,且未添加X射线滤过器。
结论
在等质量浓度下,钽在100 - 140千伏峰值电压时与铋和碘相比,始终产生高图像对比度,这表明钽有可能有利于用作临床CT造影剂。
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