Department of Radiology, Duke University Medical Center, Durham, NC, USA.
Radiographics. 2010 Jul-Aug;30(4):1037-55. doi: 10.1148/rg.304095175.
Dual-energy CT provides information about how substances behave at different energies, the ability to generate virtual unenhanced datasets, and improved detection of iodine-containing substances on low-energy images. Knowing how a substance behaves at two different energies can provide information about tissue composition beyond that obtainable with single-energy techniques. The term K edge refers to the spike in attenuation that occurs at energy levels just greater than that of the K-shell binding because of the increased photoelectric absorption at these energy levels. K-edge values vary for each element, and they increase as the atomic number increases. The energy dependence of the photoelectric effect and the variability of K edges form the basis of dual-energy techniques, which may be used to detect substances such as iodine, calcium, and uric acid crystals. The closer the energy level used in imaging is to the K edge of a substance such as iodine, the more the substance attenuates. In the abdomen and pelvis, dual-energy CT may be used in the liver to increase conspicuity of hypervascular lesions; in the kidneys, to distinguish hyperattenuating cysts from enhancing renal masses and to characterize renal stone composition; in the adrenal glands, to characterize adrenal nodules; and in the pancreas, to differentiate between normal and abnormal parenchyma.
双能 CT 提供了关于物质在不同能量下的行为、生成虚拟未增强数据集的能力以及在低能量图像上提高碘含量物质检测能力的信息。了解物质在两种不同能量下的行为可以提供比单能量技术更能获得的关于组织成分的信息。术语 K 边是指在能量水平上发生的衰减尖峰,因为在这些能量水平上光电吸收增加。K 边值因每个元素而异,并且随着原子数的增加而增加。光电效应的能量依赖性和 K 边的可变性构成了双能技术的基础,这些技术可用于检测碘、钙和尿酸晶体等物质。在腹部和骨盆中,双能 CT 可用于肝脏以增加富血管病变的显影度;在肾脏中,区分高衰减囊肿与增强的肾肿块并对肾结石成分进行特征描述;在肾上腺中,对肾上腺结节进行特征描述;在胰腺中,区分正常和异常实质。