View clinical trials related to Neonatal Sepsis.
Filter by:This study will evaluate the effect of skin antisepsis and/or emollient therapy on bacterial colonization dynamics in very low birth weight, hospitalized infants. Bacterial swabs from 5 body sites will be collected at baseline, day 3, day 8 and day 13 following study arm assignment. Study outcomes include changes in bacterial colony counts, burden of gram-negative and gram-positive pathogens and overall skin score.
Although advances in neonatal care have improved survival and reduced complications in preterm infants, sepsis still contributes significantly to mortality and in Neonatal Intensive Care Units (NICUs), in particular for very-low-birth-weight (VLBW, <1500 g) and extremely-low-birth-weight (ELBW, <1000g). Based on the timing of the infection neonatal sepsis has been classified into early-onset sepsis (EOS) and late-onset sepsis (LOS), with differences in the mode of transmission and predominant organisms. EOS is defined as onset in the first 3 days of life generally due to vertical transmission of bacteria from mothers to infants during the intrapartum period. LOS occurs after 3 days of life and it is attributed to pathogens acquired postnatally (horizontal transmission). Considering generally neonatal sepsis in Europe, 90% of the responsible bacteria resulted to be: Streptococcus agalactiae, Escherichia coli, Klebsiella pneumoniae, e Listeria monocytogenes. The diagnosis is difficult because clinical signs, particularly early in the course of disease, are subtle and nonspecific, and laboratory tests and blood culture are not always reliable. Moreover. blood culture (considered the 'gold standard) takes 48-72 hours for result. In fact the cultural method requires the presence of living and vital germs, depends on the volume of the sample - serious problem in neonatal population -, several hours are needed to process the sample, possibly resulting falsely negative in subjects undergoing concomitant antibiotic treatment or a false positive result can be found by contamination. The method based on molecular biology does not require living germs and, therefore, is not characterised by the sensitivity limitations. Such method can result to be extremely effective in patients receiving antibiotic therapy. In the present study, when an infant has to undergone blood sample for bacteria culture to verify a possible sepsis, a residual blood (200µl) is processed in the same time using a kit based on molecular biology. This kit is designed to obtain the highest sensitivity and specificity in the determination of most invasive bacterial diseases (meningitis, sepsis, pneumonia, etc.) affecting full-term, preterm infants to determine any presence of bacterial DNA belonging to all serotypes of Klebsiella pneumoniae, Escherichia coli, Streptococcus agalactiae and Listeria monocytogenes. The target bacteria have been chosen on the basis of the current Italian epidemiological context, so as to include germs causing about 90% of the meningitis/sepsis cases among the neonatal population. The detection system can unmistakably identify the germ against which it is directed and without causing any cross-reaction with other germs or human DNA.. The results obtained with this method have demonstrated a 100% specificity (no false positive result) The sensitivity of this method compared with the cultural method has turned out to be twice as high. The aim of the present study is to compare the efficacy of the blood culture method and the kit for molecular detection of bacterial DNA (all serotypes of Klebsiella pneumoniae, Escherichia coli, Streptococcus agalactiae and Listeria monocytogenes) considering the relevant epidemiology of our NICU, in order to verify the relative frequency of sepsis (EOS and LOS) caused by the target bacteria on the whole frequency of the bacteria responsible of all the sepsis in our ward.
Sepsis is a complex condition initiated by a pathogen and mediated by cytokines followed by immune, inflammatory, and coagulation homeostasis disturbances, its evolution being dictated by a complicated balance between pro inflammatory and anti- inflammatory factors. Most of the short and long-term complications of the neonatal sepsis are strictly related to inflammatory mediators. Neonatal sepsis is associated with a mortality rate that ranges from 13 to 60% inspite of improved antibiotic therapy and an increased morbidity in survivors .
Maternal and neonatal infections are among the most frequent causes of maternal and neonatal deaths, and current antibiotic strategies have not been effective in preventing many of these deaths. Recently, a randomized clinical trial conducted in a single site in The Gambia showed that treatment with oral dose of 2 g azithromycin vs. placebo for all women in labor reduced selected maternal and neonatal infections. However, it is unknown if this therapy reduces maternal and neonatal sepsis and mortality. The A-PLUS trial includes two primary hypotheses, a maternal hypothesis and a neonatal hypothesis. First, a single, prophylactic intrapartum oral dose of 2 g azithromycin given to women in labor will reduce maternal death or sepsis. Second, a single, prophylactic intrapartum oral dose of 2 g azithromycin given to women in labor will reduce intrapartum/neonatal death or sepsis.
Very preterm infants (<32 weeks gestation) show the immaturity of organs and have high nutrient requirements for growth and development. In the first weeks, they have difficulties tolerating enteral nutrition (EN) and are often given supplemental parenteral nutrition (PN). A fast transition to full EN is important to improve gut maturation and reduce the high risk of late-onset sepsis (LOS), related to their immature immunity in gut and blood. Conversely, too fast increase of EN predisposes to feeding intolerance and necrotizing enterocolitis (NEC). Further, human milk feeding is not sufficient to support nutrient requirements for growth of very preterm infants. Thus, it remains a difficult task to optimize EN transition, achieve adequate nutrient intake and growth, and minimize NEC and LOS in the postnatal period of very preterm infants. Mother´s own milk (MM) is considered the best source of EN for very preterm infants and pasteurized human donor milk (DM) is the second choice if MM is absent or not sufficient. The recommended protein intake is 4-4.5 g/kg/d for very low birth infants when the target is a postnatal growth similar to intrauterine growth rates. This amount of protein cannot be met by feeding only MM or DM. Thus, it is common practice to enrich human milk with human milk fortifiers (HMFs, based on ingredients used in infant formulas) to increase growth, bone mineralization and neurodevelopment, starting from 7-14 d after birth and 80-160 ml/kg feeding volume per day. Bovine colostrum (BC) is the first milk from cows after parturition and is rich in protein (80-150 g/L) and bioactive components. These components may improve gut maturation, NEC protection, and nutrient assimilation, even across species. Studies in preterm pigs show that feeding BC alone, or DM fortified with BC, improves growth, gut maturation, and NEC resistance during the first 1-2 weeks, relative to DM, or DM fortified with conventional HMFs. On this background, the investigators hypothesize that BC, used as a fortifier for MM or DM, can reduce feeding intolerance than conventional fortifiers.
An EONS occurred in nearly 14-22 % of the preterm infant of pregnant women with PPROM. To this day no risk prediction is established. The main aim of this pilot study is generating primary data with a focus on the vaginal microbiome to set-up a prospective, multi-centre trial investigating the role of the vaginal microbiome for future EONS risk prediction. The planned PEONS pilot trial is subdivided in three Work packages: 1. Recruitment, sample collection and routine clinical diagnostics 2. Microbiome analysis by 16S rRNA 3. Microbiome/ Metagenome analysis by "Nanopore" (proof-of-principle) and will enroll women with a PPROM event hospitalized between 22+0 and 34+0 weeks of gestation and neonates with signs of EONS (Subgroup 1) and without signs of EONS (Subgroup 2).
Neonatal sepsis (NS) is a rather serious but relatively common health problem. Despite recent advances in the treatment of neonatal infection, mortality and comorbidities remain high.
The aim of the project is to study neonatal immune dysfunction associated to the risk of newborn sepsis in a malaria endemic area in Benin.
Diagnosis of neonatal sepsis remains a challenge due to non-specific signs and diagnostic inaccuracies. Studies have shown that this could lead to overdiagnosis and overuse of antibiotic treatment, with potential long-term adverse effects. A systems approach towards diagnosing neonatal sepsis has been shown to have high accuracy in initial studies. This study aims to recruit a large validation cohort to confirm findings.
Background: Neonatal sepsis is a major contributor to global under five mortality. In developing countries a major proportion of neonatal sepsis is thought to emanate from the healthcare setting, due to challenges in infection prevention practices. Aim: To study the epidemiology of neonatal sepsis and evaluate the effect of multimodal infection control interventions on the incidence of neonatal sepsis; and colonization by multidrug resistant Gram negative bacteria (MDRGNB). Methods: A controlled before and after interventional trial comprising a 7 month pre- intervention phase, 5 month intervention phase and 7 month post-intervention phase. Neonates admitted at the Neonatal Intensive Care Unit (NICU) at Korle-Bu Teaching Hospital (KBTH) will be enrolled prospectively and followed up for diagnosis of sepsis and outcome of admission. This will be used to describe the epidemiology of neonatal sepsis. Swabs will be collected from a subpopulation of included neonates at intervention site (KBTH) and control site (37 Military Hospital) NICUs to assess colonization of neonates with MDRGNB. Environmental swabs will be collected from surfaces at the NICU to assess MDRGNB contamination of the environment. The intervention comprises infection prevention strategies including implementation of the WHO multimodal hand hygiene strategy. The primary endpoint is incidence of neonatal sepsis. Expected Outcome: This study will contribute to improved infection prevention practices in the participating NICUs and highlight lessons which other national and regional NICUs may learn from.