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PURPOSE Prostate biopsies may undergrade up to half of all prostate cancers (PCs), delaying definitive treatment by up to 3 years. One cause of undergrading is the partial sampling inherent in the technique. Because of this, a prostate biopsy that appears to be Gleason 3+3=6 may come either from a true 3+3=6 tumor or from a higher-grade tumor that has been sampled only partially. The main goal of the present study is to identify a way to distinguish these 2 kinds of "Gleason 3+3=6" biopsies.Mounting evidence hints at the possibility that Gleason pattern 3 associated with higher-grade PC (aG3) is biologically distinct from pure Gleason pattern 3 (pG3). MATERIALS AND METHODS In this study, we used immunohistochemistry and computer-aided image analysis to compare the expression of Ki67, cyclin D1, MYC, and p53 between foci of aG3 and pG3, to search for a marker that could distinguish them. see more RESULTS The expression of Ki67 differed significantly between pG3 and aG3. The average Ki67 labeling index was 1.63% for pG3 and 7.62% for aG3 (P less then 0.01); the average number of Ki67 cells per high-power field was 17 for pG3 and 60 for aG3 (P less then 0.01). The other markers did not differ significantly between pG3 and aG3. CONCLUSIONS When a biopsy only shows Gleason pattern 3 PC, Ki67 immunohistochemistry could be used to distinguish the nodules of true Gleason score 3+3=6 from those that only appear to be 3+3=6 because of a sampling error. This would dramatically improve the diagnostic performance of prostate biopsies and the management of early PC.The study of toxicities induced by sorafenib, as well as the identification of possible mechanisms and biomarkers of these toxicities, is important to improve the treatment and quality of life of hepatocellular carcinoma (HCC) patients. This study focused on toxicities, cellular oxidative stress, adherence, and quality of life of 11 patients with HCC treated with sorafenib. Dermatotoxicity, myelotoxicity, gastro toxicity, nephrotoxicity, pain, and fatigue were investigated. For oxidative stress analysis, the peripheral blood mononuclear cells were isolated and mitochondrial superoxide anion production was measured using MitoSOX Red test. Medication adherence was evaluated based on Morisky-Green and MedTake tests. Quality of life assessment was performed using EORTC QLQ C-30 and QLQ HCC18 questionnaires. The results showed that hand-foot syndrome (45.5%), thrombocytopenia (45.5%), diarrhea (54.5%), pain (54.5%), and fatigue (36.4%) were the most prevalent toxicities. A non-statistically significant change in the levels of superoxide anion was observed after the sorafenib treatment (Wilcoxon test, P = 0.4131). Moreover, 81.8% of patients had high adherence, 100% knew the correct indication of sorafenib, 81.8% knew the correct intake and drug regimen, and 36.4% knew the correct dose of antineoplastic. There was a significant worsening in the emotional and pain domains of quality of life after the sorafenib (Wilcoxon test, P = 0.0313 and P = 0.0313, respectively). A production of superoxide anion was not correlated with toxicities (Spearman's correlation and Mann-Whitney U tests, P > 0.05). This study suggests that oxidative stress might not be the mechanism of sorafenib toxicities.The standardization of resistance vessel preparation is crucial to compare physiologic vascular reactivity under different experimental conditions. Here, we describe a generalizable experimental setup for ex vivo vascular function experiments and their mathematical basis. Porcine basilar arteries and chicken common carotid arteries were isolated post mortem via standardized surgical approaches. The inner circumference of these vessels with a passive wall tension corresponding to 100 mm Hg (IC100) as well as the circumference at which the active force production of the vessel is maximal (IC1) were determined systematically. The IC1/IC100 ratio (also referred to as factor k), a value that is believed to be constant for a defined vessel type in one species, was calculated by a novel mathematical approach. Here, we present an easy-to-use toolbox for the systematic and computer-based calculation of factor k and simplified optimal pre-stretching of any vascular segments for wire myography experiments. © 2020 S. Karger AG, Basel.The development of new diagnostic technologies based on the light scattering and autofluorescence properties of dental tissues is required to improve the diagnostic ability of initial caries lesions earlier than previously done and promoting the potential of treatment without surgical intervention. The aim of this study is to correlate fluorescence-based results provided by multiphoton microscopy (MPM) with confocal Raman microscopy records using phosphate level at 960 cm-1 and the organic matrix at ∼2,931 cm-1 in healthy and demineralized human enamel. Measurements on 14 teeth were made using two incident lights of different wavelengths, released by confocal Raman microscopy and MPM. Raman phosphate peak intensity at 960 cm-1 along with organic to mineral ratio at (2,931/430 cm-1) and nonlinear optical signals (second harmonic generation [SHG] and intrinsic two-photon excited fluorescence [I2PEF]) were recorded from the demineralized and healthy enamel sites. Raman spectral maps showed that the higher the organic/mineral ratio in the demineralized enamel, the lower the intensity of mineral component in the same zone. MPM revealed new optical indicators of carious lesion as shown by the presence of a red-shifted fluorescence peak in the 650- to 750-nm area of the fluorescence spectrum of demineralized enamel. Moreover, on sample regions with insignificant autofluorescence, the emergence of the SHG signal could be noted. By comparing I2PEF images with the structural motifs observed by the confocal Raman imaging system, the morphological similarity of the acquired images was quite evident. Any change in the I2PEF spectra reflects alterations in the chemical composition of enamel. These findings may provide an important basis for potentially valuable applications of photonic tools in the clinical diagnosis of tooth pathological conditions, besides exposing the fundamental role of organic matrix in enamel integrity and reparation. © 2020 S. Karger AG, Basel.BACKGROUND The relationship between social media usage and the public's expressions of sunburn remains unexplored. This study is a content analysis of Twitter that was performed to identify the public's expressions, perceptions, and attitudes towards sunburn. METHODS Qualitative content analysis was conducted on tweets by Australian Twitter users during January 2007 and January 2016. Out of 2,000 tweets available, in-depth content analysis of 200 random tweets was performed. RESULTS Tweets in this study were categorised into 10 distinct themes, three of which were cognitive (fact based) and seven affective (emotional), while one was miscellaneous. Results reveal that tweets about sunburn overwhelmingly contained affective as opposed to cognitive components. In addition, the sentiments contained in the affective tweets were frequently positively (68.9%) rather than negatively valanced (31.1%). While humour was the most common theme (n = 68 tweets), many tweets also expressed a link between Australian national identity and sunburn (n = 25 tweets). CONCLUSION Many of the tweets analysed contained positive affective sentiments such as joy, rather than worry or concern, suggesting an avenue for further health promotion research. © 2020 S. Karger AG, Basel.To define cellular mechanisms underlying kidney function and failure, the Kidney Precision Medicine Project (KPMP) analyzes biopsy tissue in a multi-center research network to build cell-level process maps of kidney. link2 This study aimed to establish a single cell RNA sequencing strategy to use cell level transcriptional profiles from kidney biopsies in KPMP to define molecular subtypes in glomerular diseases.Using multiple sources of adult human kidney reference tissue samples, 22,268 single cell profiles passed KPMP quality control parameters. Unbiased clustering resulted in 31 distinct cell clusters that were linked to kidney and immune cell types using specific cell markers. Focusing on endothelial cell phenotypes, in silico and in situ hybridization methods assigned three discrete endothelial cell clusters to distinct renal vascular beds. Transcripts defining glomerular endothelial cell (GEC) were evaluated in biopsies from patients with ten different glomerular diseases in the NEPTUNE and ERCB cohort studies. Highest GEC scores were observed in patients with focal segmental glomerulosclerosis (FSGS). Molecular endothelial signatures suggested two distinct FSGS patient subgroups with alpha-2 macroglobulin (A2M) as a key downstream mediator of the endothelial cell phenotype. Finally, glomerular A2M transcript levels associated with lower proteinuria remission rates, linking endothelial function with long-term outcome in FSGS.Background Salt-sensitive hypertension is often accompanied by insulin resistance in obese individuals, but the underlying mechanisms are obscure. Microvascular function is known to affect both salt-sensitivity of blood pressure and metabolic insulin sensitivity. link3 We hypothesized that excessive salt intake increases blood pressure and decreases insulin-mediated glucose disposal, at least in part by impairing insulin-mediated muscle microvascular recruitment (IMMR).Methods In 20 lean and 20 abdominally obese individuals, we assessed mean arterial pressure (MAP; 24h ABPM), insulin-mediated whole body glucose disposal (M/I-value; hyperinsulinemic, euglycemic clamp technique), IMMR (contrast enhanced ultrasound), osmolyte and water balance, and excretion of mineralocorticoids, glucocorticoids, and amino and organic acids after a low and high salt diet during seven days in a randomized double-blind cross-over design.Results On a low, as compared to a high salt intake, MAP was lower, M/I-value was lower and IMMR was greater in both lean and abdominally obese individuals. In addition, Ln IMMR was inversely associated with MAP in lean participants on a low salt diet only. On a high salt diet, free water clearance decreased, and excretion of glucocorticoids and of amino acids involved in the urea cycle increased.Conclusion Our findings imply that hemodynamic and metabolic changes resulting from alterations in salt intake are not necessarily associated. Moreover, they are consistent with the concept that a high salt intake increases muscle glucose uptake as a response to high-salt-induced, glucocorticoid-drive muscle catabolism to stimulate urea production and thereby renal water conservation.Clinical Trial Registration Number NCT02068781.Traditional imaging examinations have difficulty in identifying benign and malignant changes in renal masses. This difficulty may be solved by ultrasound molecular imaging based on targeted nanobubbles, which could specifically enhance the ultrasound imaging of renal cell carcinomas (RCC) so as to discriminate benign and malignant renal masses. In this study, we aimed to prepare anti-G250 nanobody-functionalized targeted nanobubbles (anti-G250 NTNs) by coupling anti-G250 nanobodies to lipid nanobubbles and to verify their target specificity and binding ability to RCC cells that express G250 antigen and their capacity to enhance ultrasound imaging of RCC xenografts. Anti-G250 nanobodies were coupled to the lipid nanobubbles using the biotin-streptavidin bridge method. The average particle diameter of the prepared anti-G250 NTNs was 446 nm. Immunofluorescence confirmed that anti-G250 nanobodies were uniformly distributed on the surfaces of nanobubbles. In vitro experiments showed that the anti-G250 NTNs specifically bound to G250-positive 786-O cells and HeLa cells with affinities of 88.

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