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Andreassen Wrenn posted an update 6 months, 2 weeks ago
SPSS 16.0 was used for analyzing data. The difference between the two groups was analyzed by performing Student’s t-test, and ANOVA was used to analyze the difference when more than two groups. P values less then 0.05 were considered to be significantly different.Our findings demonstrated that the knockdown of lncRNA-AIRN influencedmitophagy in AFL by promoting mTOR ubiquitination.Pulmonary arterial hypertension (PAH) isa fatal disease characterized by vascular remodeling and chronic inflammation. Macrophages are the key orchestrators of inflammatory and repair responses, and have been demonstrated to be vital in the pathogenesis of PAH. However, specific phenotype of macrophage polarization (M1 & M2 macrophage) in the development of PAH and the underlying mechanisms how they work are still largely unclear. A rat model of monocrotaline (MCT) induced PAH was used. Hemodynamic analysis and histopathological experiments were conducted at day 3, 7, 14, 21 and 28, respectively. In PAH rat lung tissue, confocal microscopic images showed that CD68+NOS2+ M1-like macrophages were remarkably infiltrated on early stage, but dramatically decreased in mid-late stage. Meanwhile, CD68+CD206+ M2-like macrophages in lung tissue accumulated gradually since day 7 to day 28, and the relative ratio of M2/M1 macrophage increased over time. Results detected by western blot and immunohistochemistry were consistent. Further vitro functional studies revealed the possible mechanism involved in this pathophysiological process. By using Transwell co-culture system, it was found that M1 macrophages inducedendothelial cellapoptosis, while M2 macrophages significantly promoted proliferation of both endothelial cell and smooth muscle cell.These data preliminarily demonstrated a temporal dynamic change of macrophage M1/M2 polarization status in the development of experimental PAH. M1 macrophages participated in the initial stage of inflammation by accelerating apoptosis of endothelial cell, while M2 macrophages predominated in the reparative stage of inflammation and the followed stage of aberrant tissue remodeling.It has been suggested that sympathetic activity, measured as changes in electrical skin impedance (SI), can be used to assess the adequacy of general anesthesia. Our prospective study investigated if measurements of skin impedance can determine levels of sedation induced by midazolam. Twenty-seven patients scheduled for arthroscopy requiring general anesthesia were served as their own control. see more These were blinded to the order of injections by telling them that they will be randomly administered a placebo (saline) orsedative agent. A DM 3900 multimeter was used for SI measurements. The degree of sedation was measured using the modified Observer’s Assessment of Alertness and Sedation (mOAAS) scale. Resting SI values were noted, and all participants were then administered the placebo followed 5 min later by midazolam 2 mg i.v. Five min after that, patients were administered standard general anesthesia with propofol, oxygen, nitrous oxide 60 %, and isoflurane 1 MAC via a laryngeal mask, and sufentanil 5 – 10 µg. SI significantly increased after administration of midazolam and induction of anesthesia. There were no significant differences between pre-administration (baseline) and placebo and end of surgery and end of anesthesia with closed eyes. There were highly significant differences (p less then 0.001) between pre-administration vs. midazolam, placebo vs. midazolam, pre-administration vs. induction of anesthesia. We found slight correlation between mOAAS and SI. There were no significant changes between the end of surgery and the end of anesthesia with closed eyes, but SI significantly decreased (p less then 0.01) after eyes opened.Mice are important models for biomedical research by providing the possibility of standardizing genetic background and environmental conditions, which both affect phenotypic variability. Use of both sexes in experiments is strongly recommended because of possible differences in the outcome. However, sex-specific phenotypic variability is discussed with regard to putative consequences on the group size which is necessary for achieving valid and reproducible results. Here, we retrospectively analyzed the sex-specific variability of 25 blood parameters of C3H inbred mice in two different mouse facilities withinthe long-term, high-throughput Munich ENU mouse mutagenesis project. Using the 95 % data range, data of4,780-20,706 mice per parameter were analyzed and resulted in ratios of the coefficient of variation (= female CV / (female CV + male CV)) from 0.44 to 0.58 for the 25 parameters, with an overall mean of 0.51 in both facilities. Together with data analyses of three additional, smaller studies with 72-247 animals per parameter examined and various genetic backgrounds (inbred strains, F1 hybrids) included, hints for reproducible sex-specific variability were observed for particular parameters. Thus, the overall analysis comprising all 25 clinical chemical and hematological parameters of the standardized, long-term analysis of a high number of group housed, young adult, twelve-week-old C3H inbred mice showed no evidence for substantial sex-specific variability. The results may provide a basis for the examination of sex-specific variability in particular blood parameters.Circulating miRNAs appear promising therapeutic and prognostic biomarkers. We aimed to investigate the predictive value of circulating miRNAs on the disease outcome following anti-TNF therapy in patients with ankylosing spondylitis (AS). Our study included 19 AS patients assessed at baseline (M0), after three (M3) and twelve months (M12) of therapy. Total RNA was isolated from plasma. A comprehensive analysis of 380 miRNAs using TaqMan Low Density Array (TLDA) was followed by a single assay validation of selected miRNAs. All AS patients had high baseline disease activity and an excellent response to anti-TNF therapy at M3 and M12. TLDA analysis revealed the dysregulation of 17 circulating miRNAs, including miR-145. Single assay validation confirmed that miR-145 is significantly downregulated at M3 compared to baseline. The decrease in the levels of miR-145 from M0 to M3 negatively correlated with the change in BASDAI from M0 to M3; and positively correlated with disease activity improvement from M3 to M12 as per BASDAI and ASDAS.
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