Objective: To evaluate the relationship between the ultrasonic features of perforating veins(PVs) and the clinical stages in patients with venous insufficiency of lower extremities. Methods: In 45 cases(50 lower limbs) with differernt clinical stages of venous incompetence of lower extremities, the number, diameter and blood flow velocity of PVs were examined by color Doppler ultrasound. Results: There were positive relationships between PVs' number, diameter or blood flow velocity and the clinical stages, with a relationship index of 0.48, 0.55 and 0.51, respectively(P0.05). Conclusion: Higher clinical stages were accompanied with greater number, wider diameter or faster blood flow of PVs.
By investigating such three aspects as learning conditions,ideological state,living conditions of 1349 students in vocational colleges in the special zone,the result shows that the mode of their ideology,life and behavior basically conforms to the change of the times,presenting the characteristics and changes of their enthusiasm,enterprising,dealing with concrete matters and openness and also reflecting the contradictions and puzzles they have in terms of ideology,study and life.Knowing their characteristics enables us not only to grasp correctly the conditions of their ideology and study style but also to improve the actual effect of the work pertinently.
The broad spectrum of intellectual disability (ID) patients’ clinical manifestations, the heterogeneity of ID genetic variation, and the diversity of the phenotypic variation represent major challenges for ID diagnosis. By exploiting a manually curated systematic phenotyping cohort of 3803 patients harboring intellectual disability, we identified 704 pathogenic genes, 3848 pathogenic sites, and 2075 standard phenotypes for underlying molecular perturbations and their phenotypic impact. We found the positive correlation between the number of phenotypes and that of patients that revealed their extreme heterogeneities, and the relative contribution of multiple determinants to the heterogeneity of ID phenotypes. Nevertheless, despite the extreme heterogeneity in phenotypes, the ID genes had a specific bias of mutation types, and the top 44 genes that ranked by the number of patients accounted for 39.9% of total patients. More interesting, enriched co-occurrent phenotypes and co-occurrent phenotype networks for each gene had the potential for prioritizing ID genes, further exhibited the convergences of ID phenotypes. Then we established a predictor called IDpred using machine learning methods for ID pathogenic genes prediction. Using10-fold cross-validation, our evaluation shows remarkable AUC values for IDpred (auc=0.978), demonstrating the robustness and reliability of our tool. Besides, we built the most comprehensive database of ID phenotyped cohort to date: IDminer (http://218.4.234.74:3100/IDminer/), which included the curated ID data and integrated IDpred tool for both clinical and experimental researchers. The IDminer serves as an important resource and user-friendly interface to help researchers investigate ID data, and provide important implications for the diagnosis and pathogenesis of developmental disorders of cognition.
Abstract Corticosterone (CORT) damages hippocampus neurons as well as induces neuroinflammation. Tricarboxylic acid cycle metabolite itaconate has an anti-inflammatory role. Necroptosis acts as programmed cell death triggering neuroinflammation. The deficiency of Menin, a multifunctional scaffold protein, aggravates neuroinflammation. In this study, we explored whether itaconate inhibits CORT-induced neuroinflammation and necroptosis as well as the mediatory role of Menin in this protective effect of itaconate using an exposure of CORT to HT22 hippocampal neuronal cells. The viability of HT22 cells was examined by the Cell Counting Kit 8 (CCK-8). The morphology of HT22 cells was observed by transmission electron microscope (TEM). The expressions of necroptosis-related proteins (p-RIP1/ RIP1, p-RIP3/ RIP3, and p-MLKL/ MLKL) were evaluated by Western blotting. The contents of inflammatory factors were detected by an enzyme-linked immunosorbent assay kit. Our results showed that CORT increases the contents of pro-inflammatory factors (IL-1β, TNF-α) as well as decreases the contents of anti-inflammatory factors (IL4, IL10) in HT22 cells. We also found that CORT increases the expressions of necroptosis-related proteins (p-RIP1/ RIP1, p-RIP3/ RIP3, and p-MLKL/ MLKL) and decreases the cell viability in HT22 cells, indicating that CORT induces necroptosis to HT22 cells. Itaconate improves CORT-induced neuroinflammation and necroptosis. Furthermore, itaconate upregulates the expression of Menin in CORT-exposed HT22 cells. Importantly, silencing Menin abolishes the antagonistic effect of itaconate on CORT-induced necroptosis and neuroinflammation. In brief, these results indicated that itaconate protects HT22 cells against CORT-induced neuroinflammation and necroptosis via upregulating Menin.
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