In recent years, cytoreductive surgery (CRS) and hyperthermic intraperitoneal chemotherapy (HIPEC) have been increasingly used for the treatment of peritoneal metastases. Imaging examination plays an important role in the process of CRS+HIPEC in treatment of peritoneal metastasis. This article briefly introduces the preoperative imaging evaluation, postoperative imaging evaluation, and current limitations of CRS+HIPEC in the treatment of peritoneal metastases.
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.
ObjectiveTo summarize the common imaging features of liver cancer after local-regional therapy in order to more accurately evaluate the post-treatment response of it. MethodThe literatures of studies on imaging features after ablation, transcatheter therapy, and radiotherapy of liver cancer in recent years were searched and reviewed. ResultsIt was not accurate to evaluate the response of liver cancer after treatment only by comparing the size of tumor before and after treatment. We should follow up and observe the changes of enhancement components after tumor treatment, and pay attention to identify the normal features after treatment. ConclusionsImaging evaluation after local-regional therapy of liver cancer is of great significance in management and clinical decision-making of patients with liver cancer. Standard response evaluation systems such as EASL or mRECIST should be carefully applied after local-regional therapy of liver cancer. Treatment response of patients should be comprehensively evaluated in combination with the characteristics of local-regional therapy methods and timing, so as to avoid delaying timing of secondary treatment and causing excessive treatment.
Acute pancreatitis is a prevalent acute abdominal syndrome in clinical practice, characterized by a complex and variable course, numerous complications, high treatment challenges, and significant variability in prognosis. Imaging computed tomography (CT) plays an indispensable role in the diagnosis, classification, and severity assessment of acute pancreatitis. To ensure precise communication of the condition across departments and mutual recognition of imaging examination results among different medical institutions, there is an urgent need to establish standardized imaging reports for acute pancreatitis. We present the CT structured reporting for acute pancreatitis utilized at West China Hospital of Sichuan University, with the aim of promoting the standardization of CT report writing for acute pancreatitis.
Objective To summarize the research progress of magnetic resonance imaging (MRI) in evaluating microvascular invasion (MVI) of hepatocellular carcinoma (HCC) in order to provide information and evidence for therapy of HCC. Methods Papers published from May 1950 to May 2017, were retrieved in PubMed, OVID, CNKI database using the keywords on hepatocellular carcinoma, microvascular invasion, and magnetic resonance imaging. Sixty-seven papers were retrieved in English literatures and 13 in Chinese literatures. Criteria of paper adoption: ① the imaging method was MRI; ② the assessment content was MVI of HCC; ③ the golden standard was postoperative pathologic diagnosis. fifty-four papers were finally analyzed and reviewed. Results Currently there were various ways to evaluating the MVI of HCC using MRI, including morphology, texture analysis, diffusion-weighted imaging, dynamic-enhanced MRI, fat assessment, hepatocellular function and comprehensive evaluation. Conclusions Various methods perform differently in evaluating MVI. The use of multiparametric MRI techniques offers the potential for comprehensive assessment of MVI of HCC.
Objective To investigate the situation and prospect of local recurrence of rectal cancer by using CT and MRI. Method Relevant references about the imaging diagnosis of local recurrence of rectal cancer, which were published domestic and abroad in recent years, were collected and reviewed. Results In the diagnosis of local recurrence of rectal cancer, the sensitivity of CT was higher than that of MRI, while the specificity and accuracy were not. Perfusion CT, dynamic contrast-enhanced MRI, and diffusion weighted imaging were valuable in diagnosing local recurrence of rectal cancer, as new diagnostic techniques. Conclusion Both CT and MRI are important and valuable methods in diagnosing for local recurrence of rectal cancer.
Objective To assess the radiation dose and image quality with low-dose multi-detector row CT urography (CTU) for the evaluation of children patients with ureteropelvic junction stenosis (UJS). Methods In this prospective study, 30 children patients with UJS underwent CTU were classified half-randomly through exam numbers into 3 groups (115 mA, 100 mA, and 75 mA). Consecutive acquisitions including CT dose index weighted (CTDIw) and dose long product (DLP) were obtained in each patient and compared for each group. Three experienced chest radio-logists were unaware of the CT technique reviewed CT images for overall image quality using a 3-grade scale (excellent, good, and worst). The data were analyzed using a parametric analysis of variance test and Wilcoxon’s signed rank test. Results The CTDIws of 115 mA group, 100 mA group, and 75 mA group were (7.63±0.83) mGy, (6.29±0.51) mGy, and (4.72±0.18) mGy, respectively, the difference was significant among three groups (F=36.445, P=0.000). The mean CTDIw reduction was 38.2% in the 75 mA group as compared with 115 mA group (P<0.001). The DLPs of 115 mA group, 100 mA group, and 75 mA group were (173.89±29.88) mGy•cm, (145.96±26.21) mGy•cm, and (102.78±12.72) mGy•cm, respectively, the difference was significant among three groups (F=13.955, P=0.000). The mean radiation dose reduction was 40.9% (75 mA group versus 115 mA group, P<0.001). The assessment of image quality was no significant difference with the same protocol and post-processing technique (Wilcoxon’s signed rank test, P>0.05). There was a good agreement for image quality scoring among the three reviewers (Kappa=0.736). Conclusion Low-dose multi-detector row CTU should be considered as a promising technique for the evaluation of children patients with UJS because it could decrease radiation dose and obtain acceptable image quality.
ObjectiveTo summarize research progress of molecular imaging in microvascular invasion of hepatocellular carcinoma.MethodThe literatures about the molecular imaging in recent years at home and abroad on the microvascular invasion of hepatocellular carcinoma were reviewed and analyzed.ResultsThe molecular imaging methods such as the Gd-EOB-DTPA enhanced scan, irrelevant movement within voxel diffusion weighted imaging, energy spectrum CT imaging, MR molecular probe imaging, etc. from the aspect of the microstructure multimodally studied the biological behaviors and characteristics of the disease had become the research hot topic and the development direction in the future, which played an important role in the early diagnosis and assessment of the microvascular invasion of hepatocellular carcinoma.ConclusionResearch method of molecular imaging has a prosperous prospect of clinical application in microvascular invasion of hepatocellular carcinoma.
ObjectiveTo summarize the methods and research progress of imaging evaluation of liver iron concentration.MethodsThe current status and progress of different imaging techniques in liver iron overload research were reviewed by studying the relevant literatures at home and abroad. The methods for determining liver iron concentration and their advantages and disadvantages were summarized.ResultsThe imaging methods for determining liver iron concentration mainly included traditional non-enhanced CT and dual energy CT examination, magnetic resonance signal intensity ratio, relative signal intensity index, T2 and R2 values, magnetic resonance spectroscopy, T2* and R2* values, susceptibility weighted imaging, and quantitative susceptibility mapping.ConclusionLiver iron quantification imaging method, including dual-energy CT and magnetic resonance imaging could non-invasively and accurately assess the liver iron overload.
Objective To determine feasibility of texture analysis of non-enhanced CT scan for differential diagnosis of liver cancer and hepatic hemangioma. Methods Fifty-six patients with liver cancer or hepatic hemangioma confirmed by pathology were enrolled in this retrospective study. After exclusion of images of 4 patients with artifacts and lesion diameter less than 1.0 cm, images of 52 patients (57 lesions) were available to further analyze. Texture features derived from the gray-level histogram, co-occurrence and run-length matrix, absolute gradient, autoregressive model, and wavelet transform were calculated. Fisher, probability of classification error and average correlation (POE+ACC), and mutual information coefficients (MI) were used to extract 10 optimized texture features. The texture characteristics were analyzed by using linear discriminant analysis (LDA) and nonlinear discriminant analysis (NDA) provided by B11 module in the Mazda software, the minimum error probability of differential diagnosis of liver cancer and hepatic hemangioma was calculated. Most discriminating features (MDF) of LDA was applied to K nearest neighbor classification (KNN); NDA to extract the data used in artificial neural network (ANN) for differential diagnosis. Results The NDA/ANN-POE+ACC was the best for identifying liver cancer and hepatic hemangioma, and the minimum error probability was the lowest as compared with the LDA/KNN-Fisher, LDA/KNN-POE+ACC, LDA/KNN-MI, NDA/ANN-Fisher, and NDA/ANN-MI respectively, the differences were statistically significant (χ2=4.56, 4.26, 3.14, 3.14, 3.33;P=0.020, 0.018, 0.026, 0.026, 0.022). Conclusions The minimum error probability is low for different texture feature selection methods and different analysis methods of Mazda texture analysis software in identifying liver cancer and hepatic hemangioma, and NDA/ANN-POE+ACC method is best. So it is feasible to use texture analysis of non-enhanced CT images to identify liver cancer and hepatic hemangioma.