From the Department of Physics, School of Natural Sciences, Technical University of Munich, Garching, Germany (T.U., M.F., K.W., W.N., P.B., R.C.S., F.P.); Munich Institute of Biomedical Engineering, Technical University of Munich, Boltzmannstr 11, 85748 85748 Garching, Germany (T.U., M.F., K.W., W.N., P.B., R.C.S., F.P.); Department of Diagnostic and Interventional Radiology, School of Medicine and Klinikum Rechts der Isar, Technical University of Munich, Munich, Germany (T.U., F.T.G., M.F., K.W., R.C.S., J.H.B., A.A.F., A.P.S., M.R.M., F.P., D.P.); Institute for Advanced Study, Technical University of Munich, Garching, Germany (T.K., F.P., D.P.); and Philips Research, Hamburg, Germany (T.K.).
Radiology. 2022 Apr;303(1):119-127. doi: 10.1148/radiol.212025. Epub 2022 Jan 11.
Background Dark-field chest radiography allows for assessment of lung alveolar structure by exploiting wave optical properties of x-rays. Purpose To evaluate the qualitative and quantitative features of dark-field chest radiography in participants with pulmonary emphysema as compared with those in healthy control subjects. Materials and Methods In this prospective study conducted from October 2018 to October 2020, participants aged at least 18 years who underwent clinically indicated chest CT were screened for participation. Inclusion criteria were an ability to consent to the procedure and stand upright without help. Exclusion criteria were pregnancy, serious medical conditions, and any lung condition besides emphysema that was visible on CT images. Participants were examined with a clinical dark-field chest radiography prototype that simultaneously acquired both attenuation-based radiographs and dark-field chest radiographs. Dark-field coefficients were tested for correlation with each participant's CT-based emphysema index using the Spearman correlation test. Dark-field coefficients of adjacent groups in the semiquantitative Fleischner Society emphysema grading system were compared using a Wilcoxon Mann-Whitney test. The capability of the dark-field coefficient to enable detection of emphysema was evaluated with receiver operating characteristics curve analysis. Results A total of 83 participants (mean age, 65 years ± 12 [standard deviation]; 52 men) were studied. When compared with images from healthy participants, dark-field chest radiographs in participants with emphysema had a lower and inhomogeneous dark-field signal intensity. The locations of focal signal intensity loss on dark-field images corresponded well with emphysematous areas found on CT images. The dark-field coefficient was negatively correlated with the quantitative CT-based emphysema index ( = -0.54, < .001). Participants with Fleischner Society grades of mild, moderate, confluent, or advanced destructive emphysema exhibited a lower dark-field coefficient than those without emphysema (eg, 1.3 m ± 0.6 for participants with confluent or advanced destructive emphysema vs 2.6 m ± 0.4 for participants without emphysema; < .001). The area under the receiver operating characteristic curve for detection of mild emphysema was 0.79. Conclusion Pulmonary emphysema leads to reduced signal intensity on dark-field chest radiographs, showing the technique has potential as a diagnostic tool in the assessment of lung diseases. © RSNA, 2022 See also the editorial by Hatabu and Madore in this issue.
背景 利用 X 射线的波动光学特性进行的暗场胸部 X 线摄影可用于评估肺泡结构。目的 与健康对照组相比,评估患有肺气肿的参与者的暗场胸部 X 线摄影的定性和定量特征。材料与方法 本前瞻性研究于 2018 年 10 月至 2020 年 10 月进行,筛选了接受临床指示的胸部 CT 检查的年龄至少为 18 岁的参与者。纳入标准为有能力同意该程序并无需帮助即可站立。排除标准为妊娠、严重疾病以及 CT 图像上可见的除肺气肿以外的任何肺部疾病。参与者接受临床暗场胸部 X 射线原型检查,该原型同时获取衰减射线照片和暗场胸部 X 射线照片。使用 Spearman 相关检验测试暗场系数与每位参与者的基于 CT 的肺气肿指数之间的相关性。使用 Wilcoxon 曼-惠特尼 U 检验比较半定量 Fleischner 学会肺气肿分级系统中相邻组的暗场系数。使用受试者工作特征曲线分析评估暗场系数检测肺气肿的能力。结果 共研究了 83 名参与者(平均年龄,65 岁±12[标准差];52 名男性)。与健康参与者的图像相比,患有肺气肿的参与者的暗场胸部 X 射线的信号强度较低且不均匀。暗场图像上信号强度缺失的位置与 CT 图像上发现的肺气肿区域非常吻合。暗场系数与定量 CT 基于的肺气肿指数呈负相关( = -0.54, <.001)。患有 Fleischner 学会分级为轻度、中度、融合性或进展性破坏性肺气肿的参与者的暗场系数低于无肺气肿的参与者(例如,融合性或进展性破坏性肺气肿参与者为 1.3 m ± 0.6,无肺气肿参与者为 2.6 m ± 0.4; <.001)。用于检测轻度肺气肿的受试者工作特征曲线下面积为 0.79。结论 肺气肿导致暗场胸部 X 射线的信号强度降低,表明该技术具有作为评估肺部疾病的诊断工具的潜力。©RSNA,2022 也可参见本期 Hatabu 和 Madore 的社论。
