389 research outputs found

    Exploring the role of hypoxia in neuroinflammatory disease and the use of oxygen as a therapy

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    Multiple sclerosis (MS) is an inflammatory-demyelinating disease of the central nervous system (CNS). Pathological studies have revealed that MS lesions can have hypoxia- like properties, raising the possibility that the inflamed CNS may suffer an energy deficit. We recently demonstrated that the spinal cord of rats with active experimental autoimmune encephalomyelitis (EAE, a model of MS) is hypoxic, and that hypoxia can be reversed by inspiring oxygen-enriched air. This thesis examines the contribution of hypoxia to the neurological deficits, and the use of oxygen as a therapy. Demyelinating and non-demyelinating models of EAE in rats were evaluated, namely active and passive EAE respectively. Room air controls were used for comparison. Assessment of neurological deficits in active EAE revealed that oxygen (95%) promptly improved neurological function in paralysed rats, within only 1 hour of exposure. Furthermore, prolonged administration of oxygen (75%) applied either prophylactically (from the day of immunisation for 23 days) or therapeutically from the onset of disease (for 24, 48 or 72 hours) produced a greater and long-lasting amelioration of disease severity. Interestingly, oxygen treatment from disease onset reduced oligodendrocyte cell-stress and death, demyelination, microglial activation and macrophage infiltration in the spinal cord, without exacerbating oxidative damage. The protective effect was proportional to the duration of the treatment and significant in rats treated for 72 hours. Other experiments have revealed that the spinal cord of rats with passive EAE is also hypoxic and oxygen treatment significantly ameliorated disease progression when administered prophylactically. We also tested polynitroxylated pegylated hemoglobin (PNPH) as an alternative oxygen-based treatment in active EAE, revealing an acute improvement of the neurological function 1 hour after the injection of PNPH. We conclude that hypoxia contributes to neurological deficits and demyelination in inflammatory autoimmune demyelinating disease, and that oxygen therapy can reduce both the deficits and the demyelination

    Validation of Neural Network-based Fault Diagnosis for Multi-stack Fuel Cell Systems: Stack Voltage Deviation Detection☆

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    Abstract This paper presents (i) an algorithm for the detection of unexpected stack voltage deviations in an Solid Oxide Fuel Cells (SOFC)-based power system with multiple stacks and (ii) its validation in a simulated online environment. The algorithm is based on recurrent neural networks (RNNs) and is validated by using operating data from the Wartsila WFC20 multi-stack SOFC system. The voltage deviation detection is based on statistical testing. Instead of a hardware implementation in the actual power plant, the algorithm is validated in a simulated online environment that provides data I/O communication based on the OPC (i.e. Object Linking and Embedding (OLE) for Process Control) protocol, which is also the technology utilized in the real hardware environment. The validation tests show that the RNN-based algorithm effectively detects unwanted stack voltage deviations and also that it is online-viable

    Retrospective unbiased plasma lipidomic of progressive multiple sclerosis patients-identifies lipids discriminating those with faster clinical deterioration.

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    The disease course of patients with a confirmed diagnosis of primary progressive multiple sclerosis (PPMS) is uncertain. In an attempt to identify potential signaling pathways involved in the evolution of the disease, we conducted an exploratory unbiased lipidomic analysis of plasma from non‑diseased controls (n = 8) and patients with primary progressive MS (PPMS, n = 19) and either a rapid (PPMS‑P, n = 9) or slow (PPMS‑NP, n = 10) disease course based on worsening disability and/or MRI‑visible appearance of new T2 lesions over a one‑year‑assessment. Partial least squares‑discriminant analysis of the MS/MSALL lipidomic dataset, identified lipids driving the clustering of the groups. Among these lipids, sphingomyelin‑d18:1/14:0 and mono‑hexosylceramide‑d18:1/20:0 were differentially abundant in the plasma of ppMS patients compared to controls and their levels correlated with MRI signs of disease progression. Lyso‑phosphatidic acid‑18:2 (LPA‑18:2) was the only lipid with significantly lower abundance in PPMS patients with a rapidly deteriorating disease course, and its levels inversely correlated with the severity of the neurological deficit. Decreased levels of LPA‑18:2 were detected in patients with more rapid disease progression, regardless of therapy and these findings were validated in an independent cohort of secondary progressive (SPMS) patients, but not in a third cohorts of relapsing–remitting (RRMS) patients. Collectively, our analysis suggests that sphingomyelin‑d18:1/14:0, mono‑hexosylceramide‑d18:1/20:0, and LPA‑18:2 may represent important targets for future studies aimed at understanding disease progression in MS

    Is Macronutrients Intake a Challenge for Cardiometabolic Risk in Obese Adolescents?

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    (1) Background: Pediatric obesity is an emerging public health issue, mainly related to western diet. A cross-sectional study was conducted to explore the association between macronutrients intake and cardiometabolic risk factors in obese adolescents. (2) Methods: Ninety-three Italian obese adolescents were recruited; anthropometric parameters, body composition, glucose and lipid metabolism profiles were measured. Macronutrients intake was estimated by a software-assisted analysis of a 120-item frequency questionnaire. The association between macronutrients and cardiometabolic risk factors was assessed by bivariate correlation, and multiple regression analysis was used to adjust for confounders such as age and sex. (3) Results: By multiple regression analysis, we found that higher energy and lower carbohydrate intakes predicted higher body mass index (BMI) z-score, p = 0.005, and higher saturated fats intake and higher age predicted higher HOmeostasis Model Assessment of insulin resistance (HOMA-IR) and lower QUantitative Insulin-sensitivity ChecK (QUICK) index, p = 0.001. In addition, a saturated fats intake <7% was associated with normal HOMA-IR, and a higher total fats intake predicted a higher HOMA of percent \u3b2-cell function (HOMA-\u3b2), p = 0.011. (4) Conclusions: Higher energy intake and lower carbohydrate dietary intake predicted higher BMI z-score after adjustment for age and sex. Higher total and saturated fats dietary intakes predicted insulin resistance, even after adjustment for confounding factors. A dietary pattern including appropriate high-quality carbohydrate and reduced saturated fat intakes could result in reduced cardiometabolic risk in obese adolescents

    C/EBPβ-1 promotes transformation and chemoresistance in Ewing sarcoma cells.

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    CEBPB copy number gain in Ewing sarcoma was previously shown to be associated with worse clinical outcome compared to tumors with normal CEBPB copy number, although the mechanism was not characterized. We employed gene knockdown and rescue assays to explore the consequences of altered CEBPB gene expression in Ewing sarcoma cell lines. Knockdown of EWS-FLI1 expression led to a decrease in expression of all three C/EBPβ isoforms while re-expression of EWS-FLI1 rescued C/EBPβ expression. Overexpression of C/EBPβ-1, the largest of the three C/EBPβ isoforms, led to a significant increase in colony formation when cells were grown in soft agar compared to empty vector transduced cells. In addition, depletion of C/EBPβ decreased colony formation, and re-expression of either C/EBPβ-1 or C/EBPβ-2 rescued the phenotype. We identified the cancer stem cell marker ALDH1A1 as a target of C/EBPβ in Ewing sarcoma. Furthermore, increased expression of C/EBPβ led to resistance to chemotherapeutic agents. In summary, we have identified CEBPB as an oncogene in Ewing sarcoma. Overexpression of C/EBPβ-1 increases transformation, upregulates expression of the cancer stem cell marker ALDH1A1, and leads to chemoresistance

    Randomized trial of an education and support intervention to preventreadmission of patients with heart failure

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    AbstractObjectivesWe determined the effect of a targeted education and support intervention on the rate of readmission or death and hospital costs in patients with heart failure (HF).BackgroundDisease management programs for patients with HF including medical components may reduce readmissions by 40% or more, but the value of an intervention focused on education and support is not known.MethodsWe conducted a prospective, randomized trial of a formal education and support intervention on one-year readmission or mortality and costs of care for patients hospitalized with HF.ResultsAmong the 88 patients (44 intervention and 44 control) in the study, 25 patients (56.8%) in the intervention group and 36 patients (81.8%) in the control group had at least one readmission or died during one-year follow-up (relative risk = 0.69, 95% confidence interval [CI]: 0.52, 0.92; p = 0.01). The intervention was associated with a 39% decrease in the total number of readmissions (intervention group: 49 readmissions; control group: 80 readmissions, p = 0.06). After adjusting for clinical and demographic characteristics, the intervention group had a significantly lower risk of readmission compared with the control group (hazard ratio = 0.56, 95% CI: 0.32, 0.96; p = 0.03) and hospital readmission costs of $7,515 less per patient.ConclusionsA formal education and support intervention substantially reduced adverse clinical outcomes and costs for patients with HF

    Body Mass Index in Multiple Sclerosis modulates ceramide-induced DNA methylation and disease course.

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    abstract Background: Multiple Sclerosis (MS) results from genetic predisposition and environmental variables, including elevated Body Mass Index (BMI) in early life. This study addresses the effect ofBMI on the epigenome ofmono- cytesand diseasecourseinMS. Methods: Fifty-four therapy-naive Relapsing Remitting (RR)MS patientswith high and normal BMI received clin- ical andMRI evaluation. Blood samples were immunophenotyped, and processed for unbiased plasma lipidomic profiling and genome-wide DNA methylation analysis of circulating monocytes. The main findings at baseline were validated in an independent cohort of 91 therapy-naïve RRMS patients. Disease course was evaluated by a two-year longitudinal follow up and mechanistic hypotheses tested in human cell cultures and in animal models ofMS. Findings: Higher monocytic counts and plasma ceramides, and hypermethylation of genes involved in negative regulation ofcell proliferationwere detected in the high BMI group ofMSpatients compared to normal BMI. Cer- amide treatment of monocytic cell cultures increased proliferation in a dose-dependent manner and was prevented by DNA methylation inhibitors. The high BMI group ofMS patients showed a negative correlation be- tween monocytic counts and brain volume. Those subjects at a two-year follow-up showed increased T1 lesion load, increased disease activity, and worsened clinical disability. Lastly, the relationship between body weight, monocytic infiltration, DNA methylation and disease course was validated in mouse models ofMS. Interpretation: High BMI negatively impacts disease course in Multiple Sclerosis by modulating monocyte cell number through ceramide-induced DNA methylation of anti-proliferative genes
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