RESUMEN
Objective:The differential diagnosis of pulmonary artery sarcoma (PAS) and pulmonary embolism (PE) by double-detector spectral computerized tomography (CT) provides a new way to improve the detection rate of PAS and reduce the misdiagnosis rate.Methods:In the way of retrospective study, the Philips Nebula Workstation (ISP) was used to reconstruct electron density map, iodine density map and spectral curve in the spectral CT plain scan and enhancement of the PAS patient. In the plain scan image, the low density areas of the ascending aorta and the right pulmonary trunk were selected to measure their electronic density values. In the chest enhancement image, the iodine density of PAS area and PE area were measured respectively, and the spectral curves of PSA area and PE area were compared.Results:The electron density of the ascending aorta and the right pulmonary trunk in the low density area of the PAS patient during the plain scan of spectral CT were 104.4% EDW (relative to the percentage of the electron density of water) and 102.2% EDW, respectively, which were lower than those in the normal ascending aorta area. The fusion image of mixed energy and electron density clearly reflected the scope of the lesion. The iodine density in PAS area was 1.89 mg/ml, and the iodine density in PE area was 0.03 mg/ml during the enhancement phase. The iodine uptake in PAS area was significantly higher than that in PE area. The slope of PAS region was 2.08, and the slope of PE region was -1.86. The slopes of the two spectral curves were inconsistent.Conclusions:The electronic density, iodine density and spectral curve measured by double-detector spectral CT may provide powerful imaging basis for the diagnosis of PAS and the differentiation of PAS from PE, which is helpful for the early diagnosis of the lesions, and also provide basis for the biopsy location of the mixed lesions of PAS and PE.
RESUMEN
Objective:To investigate the clinicopathological features and computed tomography (CT) findings of tracheal glomus tumor (GT) in order to improve the understanding and diagnosis of tracheal GT.Methods:The clinical and CT imaging data of 2 patients with tracheal GT diagnosed in the First Affiliated Hospital of Zhengzhou University were analyzed retrospectively. The image characteristics based on previous reports were analyzed.Results:The clinical manifestations of trachea GT were dyspnea, chest tightness, hemoptysis, etc., which were easy to be misdiagnosed. The CT manifestations were spherical or nodular protrusions in the trachea cavity, with uneven edges, which can be lobulated. Cystic changes can be seen in the focus. After enhancement, it showed progressive filling and obvious enhancement, without deep infiltration and distant metastasis.Conclusions:Chest CT can accurately localize tracheal GT, provide its morphological size, blood supply, growth characteristics and other characteristics, accurately display the overall morphology of the lesion, and provide some help for the development of the surgical plan, and its definitive diagnosis still relies on pathological examination.