Several discussions have arisen about energy from hydroelectric plants being considered clean energy and its reservoirs have been investigated due to the large emission of greenhouse gases (GHG), such as carbon dioxide, methane, and nitrous oxide. The present work shows a statistical study of the diffusive CO2 emissions before the formation of the reservoir of the hydroelectric power plant (HPP) of SINOP, Brazil. The association between emissions collected at the surface (water-air) and at the bottom of the reservoir (sediment-water) was investigated during four data collection campaigns, carried out from November 2017 to September 2018. This study aims to compare the effect of reservoir depth on the diffusive flow of CO2 at 34 collection points. The variable depth analyzed was defined from points collected on the surface and bottom of the reservoir. The objective is to detect whether different periods of time and whether the depth of the reservoir have a direct impact on the behavior of diffusive CO2 emissions. As the measurements of the observational unit are repeatedly observed, there is a multilevel structure, individuals are independent of each other, but there is an intra-individual correlation. Considering this data configuration, an estimation of generalized equations (GEE) was performed, which is a technique that estimates the intra-individual correlation matrix and thus produces estimates for the parameters of the generalized regression models (Generalized Regression Models – GLM) that are not biased. The study showed that the average diffusive CO2 emissions are higher on the reservoir surface. The study also found that, on average, there are more emissions during the rainy season in the region than during the dry season.
Introduction Cardiac surgery with cardiopulmonary bypass (CPB) is a recognized trigger of systemic inflammatory response, usually related to postoperative acute lung injury (ALI). As an attempt to dampen inflammatory response, steroids have been perioperatively administered to patients. Macrophage migration inhibitory factor (MIF), a regulator of the endotoxin receptor, is implicated in the pathogenesis of ALI. We have previously detected peak circulating levels of MIF, 6 hours post CPB. Experimental data have shown that steroids may induce MIF secretion by mononuclear cells. This study aims to correlate levels of MIF assayed 6 hours post CPB to the intensity of postoperative pulmonary dysfunction, analysing the impact of perioperative steroid administration. MethodsWe included patients submitted to cardiac surgery with CPB, electively started in the morning, performed by the same team under a standard technique except for the addition of methylprednisolone (15 mg/kg) to the CPB priming solution for patients from group MP (n = 37), but not for the remaining patients -group NS (n = 37). MIF circulating levels were assayed at the anesthesia induction, 3, 6, and 24 hours after CPB. A standard weaning protocol with fast track strategy was adopted, and indicators of organ dysfunction and therapeutic intervention were registered during the first 72 hours postoperative.Results Levels of MIF assayed 6 hours post CPB correlated directly to the postoperative duration of mechanical ventilation (P = 0.014, rho = 0.282) and inversely to PaO 2 /FiO 2 ratio (P = 0.0021, rho = -0.265). No difference in MIF levels was noted between the groups. The duration of mechanical ventilation was higher (P = 0.005) in the group MP (7.92 ± 6.0 hours), compared with the group NS (4.92 ± 3.6 hours). ConclusionCirculating levels of MIF assayed 6 hours post CPB are correlated to postoperative pulmonary performance. Immunosuppressive doses of methylprednisolone did not affect circulating levels of MIF and may be related to prolonged mechanical ventilation. P2Immediate and short-term safety of catheter-based autologous bone marrow-derived mononuclear cell transplantation into myocardium of patients with severe ischemic heart failure
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