View clinical trials related to Neonatal Sepsis.
Filter by:Late-onset neonatal sepsis (LOS), occurring in newborn of at least 7 days of life, is frequently observed in Neonatal Intensive Care Units (NICUs) and potentially severe (mortality, neurologic and respiratory impairments). Despite its high prevalence, a reliable diagnostic remains difficult. Currently, nonspecific clinical signs that might be linked to other neonatal conditions, such as prematurity and birth defects are used to determine the diagnosis of LOS. Laboratory results of biological markers, such as C-Reactive Protein (CRP) and Procalcitonin (PCT) are often delayed in comparison with LOS onset. Blood culture results are too late and lack sensitivity. Excessive antibiotic use is observed in a large proportion of NICU hospitalized newborns. This results in an increased antibiotic resistance, microbiota modification, neonatal complications (pulmonary, ophthalmologic and neurologic) and mortality. The primary objective is to identify, on a cohort of 250 patients, the optimal biomarker combination with good diagnostic performance (i.e. with maximal Area Under the ROC Curve) to early exclude a LOS diagnostic in newborns of at least 7 days of life with suggestive signs. This identification will be carried out, as a secondary objective, with a sub-group of pre-term neonates whose birth weight is less than 1500 grams. The diagnostic value of the clinical signs that are suggestive of LOS will also be determined (sensitivity, specificity, negative and positive predictive values). Once identified, the biomarker combination is expected to reduce unjustified antibiotic use.
Assess the efficacy of melatonin as an adjuvant in the treatment of free radical disease in septic preterms receiving melatonin compared to those on conventional treatment through measuring the level of Malondialdehyde as a marker of oxidative stress and by comparing other clinical and laboratory parameters of sepsis in both groups.
The optimum duration of intravenous antibiotic therapy for culture-proven neonatal bacterial sepsis is not known. Current practices, ranging from 7 days to 14 days of antibiotics, are not evidence-based. This is a randomized, active -controlled, multi-centric, non-inferiority trial to compare the efficacy of a 7-day course of intravenous antibiotics versus a 14-day course among neonates weighing > 1000 g at birth with culture-proven bacterial sepsis that is uncomplicated by meningitis, bone or joint infections deep-seated abscesses. The primary outcome measure is a definite or probable relapse within 21 days after stoppage of antibiotics.
The overarching aim of this project is to determine the optimum enteral and parenteral nutrition strategy for newborns with Hypoxic Ischaemic Encephalopathy (HIE) during and after therapeutic hypothermia. To do this the investigators will perform two primary comparisons: 1. ENTERAL: to determine whether any enteral (milk) feeding, when compared to withholding enteral feeding (no milk), during therapeutic hypothermia, is associated with a difference in the incidence of necrotising enterocolitis. 2. PARENTERAL: to determine whether provision of intravenous dextrose, when compared to provision of parenteral nutrition, during therapeutic hypothermia, is associated with a difference in the incidence of blood stream infection. The investigators will use de-identified data held in an established research database called the National Neonatal Research Database (NNRD) and we will use the potential outcomes framework with application of propensity scoring to define matched subgroups for comparison.
Introduction and objectives: Lipid emulsions play an important role in parenteral nutrition in preterm infants. We aim to evaluate the effect of two different intravenous lipid emulsions on the outcomes of neonatal sepsis in preterm infants. Methods: A randomized controlled trial is conducted in the Neonatal Care Unit of Mansoura University Children's Hospital, Egypt. Forty preterm infants with clinically suspected sepsis are enrolled and assigned randomly into one of two groups, one receive MOFS lipid emulsion (MOFS group) and the other receive pure soyabean oil-based emulsion (S group). Clinical and epidemiological data are collected. Assessment is done on 1st day and 7th day post randomization including growth parameters, complete blood count, C-reactive protein, random blood glucose, serum creatinine, serum triglyceride, soluble intercellular adhesion molecule 1 (sICAM-1) and leukocyte integrin β2. Between-groups and within-group differences will be analyzed statistically.
Randomized controlled open-label non-inferiority trial comparing complete intravenous antibiotic treatment with a short iv. course followed by oral antibiotics in neonates (0-28 days) with probable bacterial infection. Primary outcome: - Bacterial re-infection within 28 days after finishing of antibacterial therapy. Secondary outcome(s): - Pharmacokinetic profile of oral amoxicillin/clavulanic acid - Quality of life - Cost-effectiveness - Alterations in gut microbiome - Use of molecular techniques for better detection of bacterial pathogens
Though maternal and neonatal health are high priority areas for international development, maternal and neonatal mortality remain unacceptably high. Worldwide there are 1 million maternal and 4 million neonatal deaths every year and half of them occur in sub-Saharan Africa. Post-partum and neonatal severe bacterial infections, namely sepsis, are leading causes of maternal and neonatal deaths in sub-Saharan Africa. Newborns can be infected during labour - when passing through the birth canal - and also during the first days/weeks of life, as a consequence of the close physical contact with the mother, when the latter carriers bacteria. As the mother is an important source of bacterial transmission to the newborn, treating mothers with antibiotics during labour should decrease their bacterial carriage and therefore lower transmission to the newborn. As carriage is a necessary step towards severe disease, this intervention should in turn result in the lower occurrence of severe bacterial disease and mortality during the neonatal period. In many high-income countries, pregnant women are screened during pregnancy for vaginal carriage of Group B Streptococcus, the bacteria responsible for the vast majority of neonatal sepsis in the developed world. If women are carriers, they are treated with intravenous antibiotics during labour to decrease the risk of severe disease to their off-spring. Although this intervention has been successful in developed countries, infrastructure and resource limitations in regions like sub-Saharan Africa prevent both screening and use of intravenous antibiotics. Also, in Africa several bacterial pathogens are responsible for neonatal sepsis and the antibiotics needed in the continent should cover a wider number of bacteria; and ideally cover also bacteria responsible for severe post-partum disease in the mother. We will conduct a large trial in West Africa, The Gambia and Burkina Faso, with the main objective of determining if a single dose of an oral antibiotic given to women during labour decreases newborn mortality. The trial will also assess the effect of the antibiotic on lowering newborns and maternal hospitalization during the first week's post-partum. We have selected an antibiotic (azithromycin) that in sub-Saharan Africa has already been used for elimination of other prevalent diseases such as trachoma. This antibiotic is safe, requires a single oral administration, has no special storage requirements and has the potential to eliminate most of the bacteria commonly causing severe disease in newborns and post-partum women in the continent. Very important this antibiotic is not widely used in clinical care in the continent, and therefore, any temporal increase of resistance induced by the intervention should not have implications on current treatment guidelines. Before going to the large trial proposed here (12,000 women to be recruited), we have generated robust preliminary data on the effect of the intervention in a proof-of-concept trial conducted in The Gambia (829 women and their offspring recruited). We found that in fact, babies born from mothers who had taken this antibiotic during labour were less likely to carry bacteria that can potentially cause severe disease. These babies were also three times less likely to have bacterial skin infections or umbilical infections, both highly common among African newborns. Besides, fever or mastitis (again both very common in the region) during the post-partum period were four times lower among mothers who had taken the antibiotic during labour. Such trial confirmed our hypothesis of impact on bacterial transmission but it was too small to assess the effect of the antibiotic on mortality and hospitalizations. The preliminary trial also showed that women from the azithromycin group were less likely to need antibiotics for treatment infections during the puerperal period, decreasing then the pressure on the scarcity of antibiotics available in the continent. The advantages of our approach are its simplicity, low cost and the possibility of protecting both mothers and babies with the same intervention.
To investigate biomarker reflects systemic or specific organ perfusion well, we are going to the observational comparison study using several hemodynamic monitoring methods in the premature infants. It includes near-infrared spectroscopy (NIRS), pulse oximetry with perfusion index (PI) and pleth variability index (PVI) and functional echocardiography.
The study aims to compare routine assessment of gastric residuals versus no assessment of residuals in preterm neonates with respect to time taken for achieving full enteral feeding and the incidence of possible complications, such as feeding intolerance, necrotizing enterocolitis, sepsis etc.
Feeding intolerance is a common problem in very preterm infants due to their immature digestive system. This intolerance extends the time to full enteral feeding and thereby also prolongs the time on parenteral nutrition (PN). Prolonged time to full enteral feeding may predispose these infants to a higher risk of growth retardation, infections and organ dysfunctions (e.g. liver, brain). Mother's own milk (MM) is considered the optimal nutrition for preterm infants and is superior to infant formula (including preterm formula, PF) in stimulating gut maturation, feeding tolerance, resistance against necrotizing enterocolitis (NEC) and late-onset sepsis (LOS), and long-term neurodevelopmental outcomes. However, MM is often absent, or not available in sufficient amounts, during the first days or weeks after preterm delivery. Human donor milk (DM) is probably a better supplement to MM than PF, but DM is not available for all hospitals. To supplement insufficient MM during the early neonatal period in hospital settings with no access to donor milk, we suggest that bovine colostrum (BC) may be used instead of PF for very preterm infants during early life. BC, the first milk from cows after birth, is a rich source of protein and bioactive components, including lactoferrin, lysozyme, lactoperoxidase, immunoglobulins, and various growth factors, such as IGF-I and -II, EGFs, and TGF-β. BC has repeatedly been shown to improve gut maturation and NEC/LOS resistance in a well-established piglet model of preterm infants. We suggest a randomized, controlled trial to investigate the effects of BC vs. PF, supplemented to MM during the first 2 weeks, on the time to full enteral feeding in very preterm infants.