![]() ![]() Considering the influence of the locations of SGs, GTs, and P2Gs and power balance constraints, proposing a modeling method of power adjustment capacity of overload line. However, the power adjustment capability of SGs, GTs, and P2Gs to recover the overload line cannot be accurately described, the impact of line power variation on safety also cannot be quantified, leading to the difficulty of control of overload line. The system provides powerful measures to safely recover the overload line by adjusting the power of synchronous generators (SG), gas turbines (GT), and power‐to‐gas (P2G). Further studies are necessary to determine an optimal FO definition that is clinically relevant and predictive of important outcomes.The power‐gas integrated system (PGIS) is a new trend of energy development. Our findings suggest that depending on the FO definition used, there is significant variability in the calculated %FO in PSCT patients, and this has important implications for clinical decision-making. Our study is one of the first to compare different FO definitions and the impact on predicting outcomes. %FO was not significantly associated with PICU mortality, but five of eight FO definitions were predictive of higher subsequent PELOD scores. Significant intra-subject variability was observed the median difference between individual minimum and maximum %FO scores was 11.4% (IQR 6.8, 17.1%). ![]() ![]() The number of patients identified as having >10% FO varied significantly according to the definition used, from 14 to 48% (p = 0.002). ![]() Outcome measures were pediatric intensive care unit (PICU) mortality and pediatric logistic organ dysfunction (PELOD) scores. We compared eight definitions (4 weight-based and 4 fluid-balance based) that varied by baseline weights. This is a retrospective single-center review of 21 pediatric stem cell transplant patients (PSCT) that required CRRT from 2004 to 2009. The goal of this study was to compare different methods of FO determination and to assess their relative value in predicting outcomes. However, multiple definitions have been reported, and there remains no consensus method for FO calculation. In critically ill pediatric patients, fluid overload (FO) >10% has been identified as a threshold for possible interventions, including initiation of continuous renal replacement therapy (CRRT). ![]()
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