BACKGROUND: Hospital-acquired (nosocomial) infection is a common serious health problem worldwide, especially in pediatric intensive care units and is associated with high mortality and morbidity, prolonged hospital stays and high cost.AIM: To determine the types of organisms involved in hospital-acquired an infection in two pediatric intensive care units during the one-year study and its anti-microbial susceptibility.MATERIAL AND METHODS: This study was carried out in the pediatric intensive care units (PICU) of Ain Shams & Cairo Universities, where 86 pediatric patients were recruited. Their age ranged from 1 month to 156 months with mean 20.7 ± 25.8 months. Male to female ratio was 37:29. Four samples were collected from each child for culture and sensitivity: blood, endotracheal aspirate, urine and skin swab.RESULTS: The most common microorganism was staphylococcus while Gram-negative bacteria were the commonest group. Amikacin and imipenem are the most sensitive antibiotics. Risk estimate for different risk factors among studied patients revealed no significance.CONCLUSION: Staphylococcus was the commonest micro-organism while Gram-negative infections were the commonest group among PICU with a predominance of Acinetobacter and Klebsiella. Respiratory infections were the most common, followed by blood-borne infection. Risk factors for mortality were not significant.
IntroductionDendritic cells (DCs) are the most efficient antigen presenting cells, which are considered a central component of the immune system for their extraordinary capacity to initiate and modulate the immune responses elicited upon recognition of infectious agents. This has made them a major focus of interest in the conception of immunotherapeutic vaccine strategies.Aim of the studyTo standardise a protocol for in vitro differentiation of human peripheral blood monocytes into immature DCs (iDCs) upon treatment with specific growth factors and to compare two monocyte isolation methods including magnetic activated cell sorted (MACS) monocytes by CD14+ immuno-magnetic beads and monocytes separated by adherence.Material and methodsImmature DCs were generated from monocytes of human peripheral blood in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin (IL)-4 after in vitro culture for seven days. Cultured cells were stained with surface markers of iDCs: FITC-anti-CD14, PE-anti-CD11c, PE-anti-CD1a, PE-Cy5-anti-HLA-DR, and PE-anti-CD83 for flow cytometry analysis.ResultsWe found that the viability of MACS-DCs was higher than DCs derived from monocytes separated by adherence (median 50 and interquartile range 45-50 vs. 25 and 10-30, respectively; p < 0.001). Flow cytometry analysis revealed that the median interquartile percentages of MACS-DCs expressing CD14– was significantly higher compared to the DCs derived from monocytes separated by adherence (median 80.2 and interquartile range 77.7-80.7 vs. 40.2 and 30.4-40.6, respectively; p < 0.001). However, MACS-DCs expressed the same levels of CD11c, CD1a, and HLA-DR as well as CD83 compared to the DCs derived from monocytes separated by adherence with p value > 0.05.ConclusionsBoth positively selected monocytes and monocytes separated by adherence procedure gave the same results as regards cell surface marker expression, although the DCs purity and viability using MACS separated monocytes were better.
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