Department of Radiology, Mayo Clinic, Rochester, MN 55905, USA.
Radiology. 2010 Jul;256(1):184-90. doi: 10.1148/radiol.10091411.
To evaluate the detectability of urinary stones on virtual nonenhanced images generated at pyelographic-phase dual-energy computed tomography (CT).
This retrospective HIPAA-compliant study was institutional review board approved. All included patients had previously consented to the use of their medical records for research. Sixty-two patients (38 men, 24 women; age range, 35-91 years) had undergone CT urography, which consisted of nonenhanced and pyelographic-phase dual-energy CT performed by using a dual-source scanner. Commercial software was used to create virtual nonenhanced images by suppressing the iodine signal from the pyelographic-phase dual-energy CT scans. Two radiologists, in consensus, evaluated the virtual nonenhanced images for the presence of stones. Sensitivity for detecting stones was calculated on a per-stone basis. Sensitivity, specificity, and accuracy were also calculated on a per-renal unit (defined as the intrarenal collecting system and ureter of one kidney) basis. The true nonenhanced scan was considered the reference standard. A jackknife method was used because any patient may have multiple stones.
Of 62 patients with 122 renal units, 21 patients with 25 renal units had a total of 43 stones (maximal transverse diameter range, 1-24 mm; median, 3 mm). The overall sensitivity for detecting stones was 63% (27 of 43 stones) per stone. Sensitivities were 29% (four of 14 stones) for 1-2-mm stones, 64% (nine of 14 stones) for 3-4-mm stones, 83% (five of six stones) for 5-6-mm stones, and 100% (nine of nine stones) for 7-mm or larger (7, 7, 7, 8, 8, 9, 11, 15, and 24 mm) stones. All three ureteral stones (3, 4, and 8 mm) were correctly identified. The sensitivity, specificity, and accuracy for detecting stones on a per-renal unit basis were 65% (17 of 26 renal units), 92% (88 of 96 renal units), and 86% (105 of 122 renal units), respectively.
Virtual nonenhanced images generated at pyelographic-phase dual-energy CT enabled the detection of urinary stones with moderate accuracy. The detection of small (1-2-mm) stones was limited.
评估肾盂期双能 CT 虚拟非增强图像对尿路结石的检出能力。
本回顾性 HIPAA 合规研究获得了机构审查委员会的批准。所有纳入的患者均事先同意将其病历用于研究。62 例患者(38 例男性,24 例女性;年龄 35-91 岁)接受了 CT 尿路造影检查,该检查由使用双源扫描仪进行的非增强期和肾盂期双能 CT 组成。商用软件用于通过抑制肾盂期双能 CT 扫描的碘信号来创建虚拟非增强图像。两位放射科医生在共识的基础上,对虚拟非增强图像中结石的存在进行了评估。以每颗结石为基础计算结石的检出率。以每肾单位(定义为单侧肾脏的肾盂内收集系统和输尿管)为基础计算灵敏度、特异性和准确性。真实的非增强扫描被视为参考标准。由于每个患者可能有多个结石,因此使用了 Jackknife 方法。
在 62 例患者的 122 个肾单位中,21 例患者的 25 个肾单位共有 43 颗结石(最大横径范围为 1-24mm;中位数为 3mm)。总的结石检出率为 63%(43 颗结石中的 27 颗)。1-2mm 结石的检出率为 29%(14 颗中的 4 颗),3-4mm 结石的检出率为 64%(14 颗中的 9 颗),5-6mm 结石的检出率为 83%(6 颗中的 5 颗),7mm 或更大(7、7、7、8、8、9、11、15 和 24mm)结石的检出率为 100%(9 颗中的 9 颗)。所有 3 颗输尿管结石(3、4 和 8mm)均被正确识别。基于肾单位的结石检出率、特异性和准确性分别为 65%(26 个肾单位中的 17 个)、92%(96 个肾单位中的 88 个)和 86%(122 个肾单位中的 105 个)。
肾盂期双能 CT 生成的虚拟非增强图像可以中等准确地检测尿路结石。对小结石(1-2mm)的检出能力有限。