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AIM To investigate whether insulin resistance is a predictor for decreased olfactory function in adult type 1 diabetes patients (T1DM). MATERIALS AND METHODS The following parameters were examined in the group of 113 T1DM participants body mass index (BMI), waist-hip ratio (WHR), TG/HDL ratio, glycated hemoglobin (HbA1c ), visceral fat (VF) in body bioimpedance, specific calculators (eGDR, VAI). Bilateral olfactory test score (BOTS) was performed using 12-odour-tests from Sniffin' Sticks. Then participants were allocated to one of two groups normosmia (10-12 odours identified) or hyposmia/anosmia (0-9 odours). The association between BOTS and insulin resistance indicators was analyzed using Spearman's rank correlation, multivariate linear regression analysis, and receiver operating characteristic (ROC) curve. RESULTS 49.6% participants were diagnosed with hyposmia/anosmia, median BOTS was 10. BOTS correlated significantly with WHR, TG, VF index, TG/HDL ratio, VAI, and eGDR. In multivariate linear regression analysis higher WHR turned out to be statistically significant independent predictor of lower BOTS (β = -0.36; P = .005) after adjustment for age, sex, TG and peripheral neuropathy (R2 = 0.19; P = .0005). The ROC analysis indicated a WHR cut-off of 0.92 [area under the ROC curve (AUC) 0.737; 95% confidence interval (CI) 0.647-0.828, P less then .0001] as the best among evaluated factors significantly affecting hyposmia/anosmia occurrence (sensitivity of this cut-off 0.50 and specificity 0.86). CONCLUSIONS We have provided evidence of an association between lowered insulin sensitivity expressed in bioelectrical impedance analysis, anthropometrical (WHR), laboratory (TG/HDL ratio) measurements, specific calculators (eGDR, VAI) and deteriorated olfactory function. © 2020 John Wiley & Sons Ltd.The synergistic integration of nanomaterials with 3D printing technologies can enable the creation of architecture and devices with an unprecedented level of functional integration. In particular, a multiscale 3D printing approach can seamlessly interweave nanomaterials with diverse classes of materials to impart, program, or modulate a wide range of functional properties in an otherwise passive 3D printed object. However, achieving such multiscale integration is challenging as it requires the ability to pattern, organize, or assemble nanomaterials in a 3D printing process. This review highlights the latest advances in the integration of nanomaterials with 3D printing, achieved by leveraging mechanical, electrical, magnetic, optical, or thermal phenomena. Ultimately, it is envisioned that such approaches can enable the creation of multifunctional constructs and devices that cannot be fabricated with conventional manufacturing approaches. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Photoactive metal-organic frameworks (MOFs) represent one of the most promising materials for photocatalytic hydrogen production, but phosphonate-based MOFs have remained largely underdeveloped compared to other conventional MOFs. Herein, a photocatalyst of 1D titanium phosphonate MOF is designed through an easy and scalable stirring hydrothermal method. Homogeneous incorporation of organophosphonic linkers can narrow the bandgap, which is due to the strong electron-donating ability of the OH functional group that can efficiently shift the top of the valence band, moving the light absorption to the visible portion of the spectrum. In addition, the unique 1D nanowire topology enhances the photoinduced charge carrier transport and separation. https://www.selleckchem.com/products/pd-1-pd-l1-inhibitor-3.html Accordingly, the titanium phosphonate nanowires deliver remarkably enhanced photocatalytic hydrogen evolution activity under irradiation of both visible light and a full-spectrum simulator. Such concepts of engineering both nanostructures and electronic states herald a new paradigm for designing MOF-based photocatalysts. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.This exploratory study investigates the relationships between citizens' disaster preparedness and cultural factors in Romania and Malta. Methodologically, we collected quantitative and qualitative data during two Citizen Summits, which consisted of a mix of real time survey and focus group discussions. The results point at two specific cultural factors, which may bridge this 'gap' and be operationalised for improving citizens' disaster preparedness. In Malta, the data revealed how community cohesion is transformed from a personal into a cultural value, which holds the potential to encourage transforming preparedness intentions into actual preparedness behaviour. In Romania, findings highlight the ambivalent aspects of trusting behaviour as a cultural norm on the one hand, distrust in authorities based on experience and unmet expectations on the other, and social media use, which may reduce the tension between trust and distrust, and thus foster successful disaster-risk-related communication. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.MALAT1 is an oncogenic lncRNA that has been found to promote carcinogenesis and metastasis in many tumors. However, the underlying role of MALAT1 in the progression and metastasis of hepatocellular carcinoma (HCC) remains unclear. In this study, aberrantly elevated levels of MALAT1 were detected in both HCC specimens and cell lines. We found that knockdown of MALAT1 caused retardation in proliferation, migration and invasion both in vivo and in vitro. Mechanistic investigations showed that SNAI1 is a direct target of miR-22 and that MALAT1 modulates SNAI1 expression by acting as a competing endogenous RNA for miR-22. Inhibition of miR-22 restored SNAI1 expression suppressed by MALAT1 knockdown. Furthermore, MALAT1 facilitated the enrichment of EZH2 at the promoter region of miR-22 and E-cadherin, which was repressed by MALAT1 knockdown. MALAT1, cooperating with EZH2, positively regulated SNAI1 by repressing miR-22 and inhibiting E-cadherin expression, playing a vital role in epithelial to mesenchymal transition (EMT). In conclusion, our results reveal a mechanism by which MALAT1 promotes HCC progression and provides a potential target for HCC therapy. This article is protected by copyright. All rights reserved.
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