ObjectiveTo construct a map of cerebral cortex thickness in Idiopathic Generalized Epilepsy (IGE) diagnosed at the first visit, using T1-weighted brain magnetic resonance imaging and advanced image analysis software. MethodsHigh-resolution three-dimensional T1 images were obtained from 27 IGE patients diagnosed at the first visit and 29 normal controls in Shouguang People's Hospital from January 1, 2022 to December 31, 2021. The location recognition calculation system of the Freesurfer software was used to calculate the values of cortical thickness in each brain region, and the cortical thickness values were transformed into a brain atlas using the image analysis software. A differential brain atlas was generated using the two-sample t-test to analyze the difference in cortical thickness between IGE patients and normal controls. Paired t-test was used for within-group comparison to explore changes of cortical thickness laterality. ResultsIn the IGE brain atlas, the brain regions with higher cortical thickness were the right left temporal pole, the right left entorhinal cortex, the head of the right anterior cingulate gyrus, the right and left insular lobe, the right and left middle temporal gyrus, the right inferior temporal gyrus, the head of the left anterior cingulate gyrus, the left tail of the anterior cingulate gyrus, the left inferior temporal gyrus, the left and right fusiform gyrus, and the left frontal pole. The areas with lower cortical thickness were the right and left paracalcaric gyrus, the right and left cuneiform lobe, the left and right lingual gyrus, the left and right posterior central gyrus, the left lateral occipital gyrus, and the right and left superior parietal gyrus. The distribution of cortical thickness of the IGE group was comparable to the cortical thickness atlas of the normal control. Compared with normal control, the areas with changes of cortical thickness in the IGE group were bilateral superior frontal gyrus, bilateral posterior central gyrus, bilateral anterior central gyri, bilateral lingual gyri, left cuneiform lobe, bilateral entorhinal cortex and temporal pole. The brain areas with laterality of cortical thickness between hemispheres in the IGE group were the tail of anterior cingulate gyrus, cuneiform lobe, inferior parietal gyrus, lateral occipital gyrus, posterior central gyrus, head of anterior cingulate gyrus, and superior marginal gyrus. Compared with normal control, the IGE group has decreased number of brain regions with laterality of cortical thickness. ConclusionThe present study revealed the distribution and laterality of cerebral cortical thickness map in early idiopathic generalized epilepsy, which provides imaging structural basis for brain research in the future.
UK Biobank is an extensive biomedical database and research resource. It contains in-depth genetic and health information from 500 000 UK subjects, comprising a wealth of basic structured data, high-throughput genomic and genetic data, and multimodal imaging data. However, difficulties in accessing the large amount of data mean that the database has not been widely used in China. We first introduced the health-related structural data, genetic data, and imaging data in the UK Biobank. We then described methods for using different types of data downloaded from UK Biobank, and explored recent research based on these data. We also discussed classic research focusing on applying artificial intelligence technology to UK Biobank data. Finally, we predicted future research trends in the utilization of UK Biobank data in areas such as anatomy, physiology, genetic variation, and phenotypic characteristics.
Abdominal aortic aneurysm (AAA) is a common lethal aortic disease in clinical practice. At present, the imaging diagnostic methods used for AAA mainly include Doppler ultrasound, computed tomography and magnetic resonance imaging (MRI), but these methods can only observe the morphological changes of the aorta. These techniques used for the risk assessment of aneurysms, such as aneurysm rupture have some certain limitations. With the continuous development of molecular imaging technology and the further understanding of the pathogenesis of AAA, positron emission tomography (PET), molecular MRI and single photon emission computed tomography (SPECT) techniques can be used to observe the pathological changes of the AAA and assess the risk of rupture from cell and molecular level. In this paper, the latest application of PET, molecular MRI, SPECT in the risk assessment was discussed.
Objective To detect the value of three-dimensional (3D) ultrasound diagnosis in common ocular fundus diseases. Methods Two-dimensional (2D) images of 38 patients with common ocular fundus diseases were three-dimensionally reconstructed via 3D ultrasound workstation. The 3D images reflecting the ocular diseases were analyzed. Result In 38 patients with common ocular fundus diseases, there was vitreous hemorrhage in 16 patients, retinal detachment in 12, choroidal detachment in 5, and intraocular space occupying lesion in 5. Compared with the 2D images, 3D reconstructed images reflect the lesions more intuitionistically, displayed the relationship between the lesions and the peripheral tissues more clearly, and revealed the blood flow more specifically. During a scanning examination, 3D reconstructed technology provided the diagnostic information of section of X, Y and Z axises simultaneously which shortened the time of examination; the condition of any point of lesions and the relation between the lesion and the peripheral tissues could be gotten by the tools like cut and chop provided by 3D imaging software itself, which avoided detecting the same lesion with different angles and lays and proved the diagnostic efficacy. Conclusions 3D ultrasound diagnosis is better than 2D in diagnosis of vitreous, retina, choroid, and intraocular space occupying lesion. 3D ultrasound diagnosis is a complementarity for the 2D one, and the Z axis changes the former observational angles which may provide the new way of precise diagnosis. (Chin J Ocul Fundus Dis, 2005, 21: 381-383)
Objective To explore the manifestations and features of multi-slice spiral CT (MSCT) in the diagnosisof papillary thyroid carcinoma (PTC). Methods Preoperative MSCT data of 35 cases of PTC proved by operation and pathology in our hospital form May. to Jun. in 2013 were observed retrospectively, to analyze the manifestations and characteristics of MSCT for it. Results Of 35 patients with PTC, MSCT totally showed 48 lesions, 68.6% (24/35) of patients with single lesion, 31.4% (11/35) of patients with 2-3 lesions, and 62.9% (22/35) of patients with lymph node metastasis. Of the 48 lesions, 29.2% (14/48) of lesions located in the left lobe, 70.8% (34/48) of lesions located in the right lobe;the lesions’ maximum diameter were 0.4-5.8cm, with the average maximum diameter of 1.3cm. There were 39.6% (19/48) of lesions with uneven density, 25.0% (12/48) of lesions with irregular shape, 47.9% (23/48) of lesions with blurred edges, 18.8% (9/48) of lesions had papillary enhanced tumor nodules, 10.4% (5/48) of lesions had peritumoral incomplete enhanced ring sign, 22.9% (11/48) of lesions invaded surrounding tissue or organs. There were 35.4% (17/48) of lesions had calcification, in which 76.4% (13/17) of lesions were fine granular calcification, 11.8% (2/17) of lesions were mixed calcification, and 11.8% (2/17) of lesions were coarse calcification. Conclusion MSCT manifestations of PTC have certain characteristics, which can provide imaging basis for clinical treatment options.
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.
Pneumoconiosis ranks first among the newly-emerged occupational diseases reported annually in China, and imaging diagnosis is still one of the main clinical diagnostic methods. However, manual reading of films requires high level of doctors, and it is difficult to discriminate the staged diagnosis of pneumoconiosis imaging, and due to the influence of uneven distribution of medical resources and other factors, it is easy to lead to misdiagnosis and omission of diagnosis in primary healthcare institutions. Computer-aided diagnosis system can realize rapid screening of pneumoconiosis in order to assist clinicians in identification and diagnosis, and improve diagnostic efficacy. As an important branch of deep learning, convolutional neural network (CNN) is good at dealing with various visual tasks such as image segmentation, image classification, target detection and so on because of its characteristics of local association and weight sharing, and has been widely used in the field of computer-aided diagnosis of pneumoconiosis in recent years. This paper was categorized into three parts according to the main applications of CNNs (VGG, U-Net, ResNet, DenseNet, CheXNet, Inception-V3, and ShuffleNet) in the imaging diagnosis of pneumoconiosis, including CNNs in pneumoconiosis screening diagnosis, CNNs in staging diagnosis of pneumoconiosis, and CNNs in segmentation of pneumoconiosis foci to conduct a literature review. It aims to summarize the methods, advantages and disadvantages, and optimization ideas of CNN applied to the images of pneumoconiosis, and to provide a reference for the research direction of further development of computer-aided diagnosis of pneumoconiosis.
Objective To investigate the reasons, status, treatment and precautions of misdiagnosis of pulmonary inflammatory pseudotumor. Methods Between January 2005 and December 2015, one hundred eighteen articles about pulmonary inflammatory pseudotumor published in Wanfang and CNKI databases were retrospectively analyzed, among them forty-four articles referring to misdiagnosis rate. The misdiagnosis rate, distribute of misdiagnosed diseases, reasons and main means of definite diagnosis were analyzed. Results There were 1 286 cases of pulmonary inflammatory pseudotumor in the 44 articles, of them 1 012 cases were misdiagnosed. The misdiagnosis rate was 78.84%. Pulmonary inflammatory pseudotumor was often misdiagnosed as lung cancer (65.81%), tuberculosis (15.42%, which included 72 cases of tuberculoma and accounted for 7.11%) and benign pulmonary neoplasms (9.59%). Most misdiagnosed patients did not suffer from adverse consequences, except a few patients undergo unnecessary extended operations. Lack of specificity in clinical manifestations, lack of awareness about the disease, dependent on auxiliary examination and lack of awareness about the fine feature of the disease were the main reasons of misdiagnosis. The majority of misdiagnosed cases were terminal pathological diagnosed through the operation or after percutaneous biopsy. Conclusions Pulmonary inflammatory pseudotumor is lack of specificity in clinical manifestations and easy to be misdiagnosed. It is very important to analyze and identify the fine feature of imaging changes. To reduce and avoid misdiagnosis, clinicians should improve the awareness of this disease.
Electrical impedance tomography (EIT) is an emerging technology for real-time monitoring based on the impedance differences of different tissues and organs in the human body. It has been initially applied in clinical research as well as disease diagnosis and treatment. Lung perfusion refers to the blood flow perfusion function of lung tissue, and the occurrence and development of many diseases are closely related to lung perfusion. Therefore, real-time monitoring of lung perfusion is particularly important. The application and development of EIT further promote the monitoring of lung perfusion, and related research has made great progress. This article reviews the principles of EIT imaging, lung perfusion imaging methods, and their clinical applications in recent years, with the aim of providing assistance to clinical and scientific researchers.
ObjectiveTo investigate the clinical and imaging features of patients with pulmonary lymphangioleiomyomatosis (PLAM),to improve the knowledge of this disease. MethodsEighteen patients with PLAM admitted into Zhongshan Hospital between 2003 and 2013 were retrospectively analyzed. Relevant literatures were reviewed. ResultsAll the 18 cases were female and had dyspnea on exertion. Three of them suffered from chylothorax,6 from pneumothorax and 5 from hemoptysis. The high resolution CT (HRCT) findings in all the 18 cases showed multiple small cysts with thin wall diffusely distributing in the bilateral lung. PLAM was confirmed by biopsy in 14 cases. Pulmonary function tests in 4 cases showed obstructive ventilatory dysfunction. Nine cases (50%) were misdiagnosed as other diseases. All the patients were given symptomatic and supportive treatment. Literatures review showed that as a rare diffuse lung disease,PLAM is more common in women of childbearing age,mainly presenting with dyspnea,hemoptysis,pneumothorax and chylothorax. Diagnosis of the disease relies on medical history,HRCT features and lung tissue biopsy pathology. HRCT examination has diagnostic value for PLAM. Although anti-estrogen treatment has certain effects,rapamycin may be a promising drug for PLAM therapy. ConclusionPatients with PLAM have characteristic clinical and radiographic manifestations. Early diagnosis and effective treatment are keys to the management of patients with PLAM.