From the Sections of Abdominal Imaging (A.H.G., B.R.H., W.K., M.E.B.) and Medical Physics (F.D.), Imaging Institute, and Department of Quantitative Health Sciences (N.A.O.), Cleveland Clinic, Cleveland, Ohio; and Siemens Medical Solutions, Malvern, Pa (A.N.P.).
Radiology. 2016 Aug;280(2):475-82. doi: 10.1148/radiol.2016151621. Epub 2016 Mar 2.
Purpose To assess image noise, contrast-to-noise ratio (CNR) and detectability of low-contrast, low-attenuation liver lesions in a semianthropomorphic phantom by using either a discrete circuit (DC) detector and filtered back projection (FBP) or an integrated circuit (IC) detector and iterative reconstruction (IR) with changes in radiation exposure and phantom size. Materials and Methods An anthropomorphic phantom without or with a 5-cm-thick fat-mimicking ring (widths, 30 and 40 cm) containing liver inserts with four spherical lesions was scanned with five exposure settings on each of two computed tomography scanners, one equipped with a DC detector and the other with an IC detector. Images from the DC and IC detector scanners were reconstructed with FBP and IR, respectively. Image noise and lesion CNR were measured. Four radiologists evaluated lesion presence on a five-point diagnostic confidence scale. Data analyses included receiver operating characteristic (ROC) curve analysis and noninferiority analysis. Results The combination of IC and IR significantly reduced image noise (P < .001) (with the greatest reduction in the 40-cm phantom and at lower exposures) and improved lesion CNR (P < .001). There was no significant difference in area under the ROC curve between detector-reconstruction combinations at fixed exposure for either phantom. Reader accuracy with IC-IR was noninferior at 50% (100 mAs [effective]) and 25% (300 mAs [effective]) exposure reduction for the 30- and 40-cm phantoms, respectively (adjusted P < .001 and .04 respectively). IC-IR improved readers' confidence in the presence of a lesion (P = .029) independent of phantom size or exposure level. Conclusion IC-IR improved objective image quality and lesion detection confidence but did not result in superior diagnostic accuracy when compared with DC-FBP. Moderate exposure reductions maintained comparable diagnostic accuracy for both detector-reconstruction combinations. Lesion detection in the 40-cm phantom was inferior at smaller exposure reduction than in the 30-cm phantom. (©) RSNA, 2016 Online supplemental material is available for this article.
在半拟人化体模中,通过改变辐射剂量和体模大小,使用离散电路(DC)探测器和滤波反投影(FBP)或集成电路(IC)探测器和迭代重建(IR),评估图像噪声、对比噪声比(CNR)和低对比度、低衰减肝脏病变的检测能力。
在一个没有或带有 5cm 厚的脂肪模拟环(宽度分别为 30cm 和 40cm)的拟人化体模中,装有四个带有球形病变的肝脏插件,使用两台 CT 扫描仪对其进行了五种不同辐射剂量设置的扫描,一台配备 DC 探测器,另一台配备 IC 探测器。使用 FBP 和 IR 分别对 DC 和 IC 探测器扫描仪的图像进行重建。测量图像噪声和病变 CNR。四名放射科医生在五分制诊断置信度量表上评估病变存在情况。数据分析包括接收者操作特性(ROC)曲线分析和非劣效性分析。
IC 和 IR 的组合显著降低了图像噪声(P <.001)(在 40cm 体模中和较低的辐射剂量下降幅最大),并提高了病变 CNR(P <.001)。对于两种体模,在固定辐射剂量下,探测器-重建组合的 ROC 曲线下面积之间没有显著差异。在 30cm 和 40cm 体模中,IC-IR 在 50%(100mAs [有效])和 25%(300mAs [有效])的辐射剂量降低时,读者的准确性均具有非劣效性(调整后 P <.001 和 P <.04)。IC-IR 提高了读者对病变存在的信心(P =.029),而与体模大小或辐射水平无关。
与 DC-FBP 相比,IC-IR 提高了客观的图像质量和病变检测信心,但并未导致诊断准确性的提高。适度的辐射剂量降低可保持两种探测器-重建组合的诊断准确性相当。在较小的辐射剂量降低时,40cm 体模中的病变检测效果不如 30cm 体模。
