The clinical diagnosis, treatment, and prognosis of gastric cancer heavily rely on imaging examinations. The conventional imaging reports often suffer from descriptive and non-structured issues, which may lead to omission of critical information or inconsistent interpretations, thereby compromising clinical decision-making. Therefore, the standardized radiological assessment for gastric cancer is of paramount importance. The West China Hospital of Sichuan University has involved in developing and implementing a CT imaging structured reporting for gastric cancer. This structured reporting, based on authoritative guidelines, integrates key diagnostic elements to ensure comprehensive information and standardized reporting, while also serving quality control and educational purposes. Now we introduce the design, application, and features of the structured reporting at West China Hospital of Sichuan University, aiming to promote standardized documentation of gastric cancer CT imaging reports.
ObjectiveTo explore two methods of sample size estimation in multi-reader multi-case study of radiological diagnostic test and realize them by software. MethodsDemonstration programs were conducted in R software using the Van Dyke dataset, calculating combinations of readers and cases using the OR and DBM methods. These serve as pilot test results for multi-reader multi-case studies, providing a reference for parameter settings in subsequent formal experiments. ResultsWhen the effect size was 0.044, 6 readers and 247 cases could yield 0.80 power, while with an effect size of 0.088, only 6 readers and 44 cases were needed to reach 80.5% power. The sample sizes calculated using the OR method and the DBM method were consistent, and the same sample size calculation results could be obtained through conversion between the two methods. ConclusionFor the estimation of sample size in multi-reader multi-case studies, R software provides a convenient and mature software package for sample size estimation using multi-reader multi-case designs in radiological diagnostic tests, thereby offering a reference for selecting appropriate sample size estimation and statistical analysis methods in radiological diagnostic tests.
Objective To analyze the clinical presentations and radiological characteristics of acute exacerbation of idiopathic pulmonary fibrosis ( IPF) . Methods Clinical and radiological data of 2 patients with acute exacerbation of IPF from April 2006 to July 2008 were retrospectively analyzed and literatures were reviewed. Results Both patients were senior male patients over 60 years old. Dyspnea, cough and inspiratory crackles were the major symptoms and signs. Two patients were experiencing an exacerbation of dyspnea for one week and half of month, respectively. PaO2 /FiO2 of both patients was less than225 mm Hg. In both patients, high-resolution computed tomography ( HRCT) scans at the exacerbation showed typical signs of IPF including peripheral predominant, basal predominant reticular abnormality, with honeycombing and traction bronchiectasis and bronchiolectasis, and newly developing alveolar opacity. HRCT scan showed peripheral area of ground-glass attenuation adjacent to subpleural honeycombing in one patient, and diffusely distributed ground-glass opacity in another patient. Two patients had received corticosteroid treatment. For one patient, the symptoms improved, and ground-glass attenuation adjacent to subpleural honeycombing had almostly resolved. The other patient died of respiratory failure. Conclusions Some acute exacerbation in idiopatic pulmonary fibrosis can be idiopathic. The clinical presentations mainly include the worsening of dyspnea within short time. HRCT generally demonstrates new bilateral ground-glass abnormality with or without areas of consolidation, superimposed on typical changes of IPF.
The radiology diagnosis report encapsulates radiologists’ comprehensive analytical insights and deep interpretive understanding of patients’ imaging data, serving as an essential basis for disease diagnosis, clinical treatment planning, and prognosis assessment. As the primary medium through which radiologists contribute substantively to patient’s care, traditional free-text reports represent subjective interpretations shaped by individual experience and stylistic preferences. Such reliance on personal factors can introduce inconsistencies and limitations in clinical applications. To address these challenges, structured radiology reporting has been developed. We present a concise overview of the origins, developmental trajectory, current landscape, and emerging trends of structured radiology reports, highlighting their role in advancing standardized.
Chronic venous diseases are the most common vascular diseases, which are the key field of vascular surgery. This review focused on the development about imaging diagnosis (including ultrasound, CT venogram, magnetic resonance venogram, venography, and intravascular ultrasound), genetic screening, drug therapy (including venous active drugs, antithrombotic drugs, and sulodexide), compression therapy, and surgical treatment (including heat venous ablation, non-heat venous ablation, endovascular treatment of iliac vein, and repair of venous valves) of chronic venous diseases during the past years. This reflects the trend of preciseness, individualization, and microinvasiveness in this field.
The patients with rectal cancer account for 50% or more of patients with colorectal cancer. The rectal magnetic resonance imaging (MRI) plays a pivotal role in clinical practice for evaluating the treatment baseline of tumors. The structured report of MRI serves as the foundation so as to promote homogenized, standardized, and normalized diagnosis and treatment of rectal cancer. We presented the MRI-based baseline evaluation structured reporting system for rectal cancer developed by West China Hospital of Sichuan University, aiming to advance the standardization and normalization of imaging reports for treatment baseline assessment in rectal cancer.
Since January 2020, due to the epidemic of coronavirus disease 2019, all universities in China have postponed their studies or even suspend their studies. In response to the teaching policy of “suspending class, but keeping teaching and learning” , college teachers have rapidly changed into online teaching mode. However, how to ensure the quality and effect of online teaching still needs further exploration. Through analyzing the course characteristics of medical imaging diagnostics and students’ learning situations, this study discusses how to design detailed online teaching projects and improve the teaching quality and how to select online software suitable for the course. A questionnaire survey was conducted to evaluate the effect of online teaching during the spring course in 2020, selecting a total of 297 clinical and other undergraduate students of grade 2017 from West China School of Medicine of Sichuan University. The results showed that the detailed online teaching programs including “video learning” “distance teaching” “periodic examination” “weakness tutorial” were helpful to the learning process agreed by the majority of students. During the epidemic period, online teaching method can help students master the content of medical imaging diagnosis. In the era of Internet, the “online+offline” teaching mode is expected to be popularized in the future.
ObjectiveTo systematically review the overall diagnostic efficacy of Gd-EOB-DTPA-enhanced MRI in differentiating dysplastic nodules (DNs) and hepatocellular carcinoma (HCC), exploring whether the hepatobiliary phase can effectively improve diagnostic accuracy. MethodsThe PubMed, Embase, Web of Science, Cochrane Library, CNKI, WanFang Data, and CBM databases were searched from January 1998 to March 2023 to identify original studies on Gd-EOB-DTPA-enhanced MRI for the differential diagnosis of DNs and HCC. Two investigators independently performed literature screening, extraction of data features and quality assessment. Meta-analysis was performed using Stata 17.0 and Meta-disc1.4 software. ResultsA total of 14 papers were included in this meta-analysis, including 375 DNs and 653 HCC. The results of meta-analysis showed that, in the multiparametric diagnostic sequence, the pooled Sen, Spe, PLR, NLR and AUC were 0.95 (95%CI 0.87 to 0.98), 0.95 (95%CI 0.91 to 0.97), 18.57 (95%CI 9.64 to 35.78), 0.06 (95%CI 0.02 to 0.14) and 0.98 (95%CI 0.97 to 0.99), respectively. ConclusionGd-EOB-DTPA-enhanced MRI has a good differential diagnostic value for DNs and HCC. Hepatobiliary phase imaging also greatly compensates for the diagnostic deficiency of dynamic enhancement with low sensitivity for early HCC.
Objective To investigate the value of contrast-enhanced ultrasonography in detection and diagnosis of small primary liver cancer. Methods SonoVue-enhanced ultrasonography were performed on 353 patients with 378 primary liver cancer, less than 3 cm in diameter. Enhancement patterns and enhancement phases of hepatic lesions on contrast-enhanced ultrasonography were analyzed and compared with the results of histopathology. Results In all hepatic tumors, 96.6% (365/378) lesions enhanced in the arterial phase. Among them, 317 (83.9%) tumors enhanced earlier than liver parenchyma and 48 (12.7%) tumors enhanced synchronously with liver parenchyma, and 342 (90.5%) tumors showed early wash-out in the portal and late phases. With regard to the enhancement pattern, 329 (87.0%) tumors presented whole-lesion enhancement, 35 (9.3%) to be mosaic enhancement and 14 (3.7%) to be rim-like enhancement. If taking the whole-lesion enhancement and mosaic enhancement in arterial phase as diagnotic standard for primary liver cancer on contrast-enhanced ultrasonography, the sensitivity was 92.9%(351/378), and if the earlier or synchronous enhancement of the tumor compared with liver parenchyma in arterial phase and the wash-out in portal phase were regarded as the stardand, the sensitivity was 87.3%(330/378). Conclusion Contrast-enhanced ultrasonography could display real-time enhancement patterns as well as the wash-out processes both in hepatic tumors and the liver parenchyma. It might be of clinical value in diagnosis of primary liver cancer based on the hemodynamics of hepatic tumors on contrast-enhanced ultrasonography.