View clinical trials related to Neonatal Infection.
Filter by:This study evaluates the use of a NICU clinical integration system (Dashboard and accessories) in improving the quality of care delivered, patient health outcomes, and parent and clinician satisfaction. Clinicians will be asked to follow their current standard of care practices with the aid of this technology. About half of participants will receive care in NICU rooms with the Dashboard installed while the other half will receive standard care without the Dashboard.
Neonatal bacterial meningitis (BM) is a devastating infection that occurs more commonly in neonates than in any other age group, and is associated with significant morbidity and mortality, especially in developing countries. In this study, we aimed to develop a clinical risk score model, according to the available clinical syndromes and commonly laboratory tests, for screening BM among full-term neonates in a large-scale retrospective cohort, and prospectively validated the risk score in multicenter cohort.
Maternal infections affect the basal immune status of neonates. One of the possible mechanism is the fetomaternal microchimerism, in which some cells and active substances are exchanged bi-directionally between maternal and fetal circulation through placenta. Even in the absence of a direct (vertical) transmission of pathogens to fetuses, certain infections make the neonates more prone to allergies and some adverse events of early vaccinations. We postulate that the basal immune status of neonates born to HIV and LTBI infected mothers is primed by gestational exposure to immunological active molecules, which could results in an altered response to early BCG vaccination. Transcripts expression identified by RNA sequencing are compared between sets of mother-child and their respective umbilical cord blood, and between groups of infected and non-infected pairs.
The purpose of the protocol is to validate a novel point of care multiplex system to detect and characterize microorganisms responsible for neonatal sepsis, as well as biomarkers of infection, from a simple vaginal sample, in order to improve the prevention of perinatal bacterial infections.
The motivation for this study was produced from our preliminary data, which showed that during the first 96 hours of life a full-term neonate will actively reduce the overall serum iron concentration of their blood and the transferrin saturation decreases rapidly from 45% in cord blood to ~20% by six hours post-delivery. The Investigators hypothesise that this active sequestration of iron, which results in hypoferremia, is done in an effort to limit susceptibility to infection, a process referred to as nutritional immunity. Currently, little is known about iron regulation and iron homeostasis during the first week of life and even less is known about the comparisons of nutritional immunity between full term, preterm and low birth weight neonates. Additionally, limited research has been conducted on the impact of these processes on bacterial pathogens. In an effort to study the neonatal nutritional immunity and its role in neonatal susceptibility to infection, The investigator will conduct an observational study in full-term, preterm and low birth weight vaginally-delivered neonates born at Serrekunda General Hospital, The Gambia. The investigators will fully characterise and quantify nutritional immunity during the early neonatal period and the investogators will assess how this impacts bacterial growth. Study sensitisation will occur at the antenatal clinic, during the mother's second trimester of pregnancy. Mothers will be consented and enrolled at delivery. Blood samples will be collected once from the umbilical cord and at serial time points from the neonates over the first week of life.
This study hypothesizes that early-onset neonatal Infections are related to premature rupture of membrane (PROM) and that early intervention can improve the prognosis of newborns. The objective of this study is to analyze the correlation between PROM and early-onset neonatal infections and to assess the prognosis of newborns. A cohort study is designed to implement the study. The subjects of study group are pregnant women who are diagnosed as PROM or chorioamnionitis and whose gestational age is ≥ 24 weeks. The subjects of control group are pregnant women without PROM and chorioamnionitis. Control group and research group are paired at 1: 1 ratio. The main contents of the study include three aspects. (1) The correlation between PROM and chorioamnionitis. (2) The correlation between PROM and early-onset neonatal infections. (3) The pathogenesis of intrauterine infection and neonatal infection.
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
Although lacking strong evidences, plasma transfusions are commonly used in critically ill neonates. To date, the relationships between plasma transfusions and nosocomial infection remain controversial and no study has reported the relationships between plasma transfusion and invasive fungal infection (IFI)
The primary aim of this study is to determine if antibiotics combined with immediate induction can significantly reduce the rate of maternal and neonatal infection compared with immediate induction alone in women presenting with PROM later than the 37+0 weeks of gestation. The secondary aim is to compare the rates of infection between immediate and delayed induction in women submitted to antibiotic prophylaxis.
Suriname is a small developing country in South America with a population of half a million people. Early neonatal death in Suriname is high with 16 per 1000 live births. Unpublished data from the Suriname Perinatal and Infant Mortality Survey estimate contribution of infection to early neonatal mortality at 25% (4 per 1000 live births) of all deaths. In comparison, incidence rates of neonatal sepsis alone are 3.5 per 1000 live births. These numbers indicate an increased burden of neonatal infection in Suriname versus the U.S. In any case about 40 newborns that die each year of infection are a huge loss, also considering the small Surinamese community. Despite this overall idea on the impact of infectious disease in Surinamese neonates exact information regarding incidence, type of infection (e.g., localized, viral, early-onset or late-onset sepsis), risk factors (e.g., insufficient antenatal care, maternal Group B-Streptococcus status), etiology, microbial causes, morbidity, antibiotic treatment (type and duration), and epidemiological determinants (e.g., gestational age, sex, ethnicity) are lacking. From a clinical perspective, there is still a challenge to identify neonates with infection. Neonates are often admitted with ambivalent clinical symptoms and receive preventive antibiotics that are costly, promote pathogen-resistance, and have negative long-term effects (i.e., on the development of the intestinal bacterial flora). Currently, assessment of blood leukocyte or trombocyte counts and levels of CRP are insufficiently sensitive to be used as biomarkers, while confirmation of actual sepsis or meningitis by positive culture results is relatively rare (0.5-3% in the United States). This complicates decisions on duration of antibiotic treatment and hospitalization significantly, while no other biomarkers exist. The circulating isoforms of adhesion molecules (cAMs), which mediate interactions of leukocytes with the vascular endothelium, have been proposed as biomarkers for infection and sepsis. During infection they accumulate in the bloodstream as a result of shedding, which represents their removal from cell surfaces of endothelial cells and leukocytes by enzymes called sheddases. Recently, we have reviewed mechanisms behind shedding of cAMs in neonatal, pediatric and adult sepsis. The shedding process reflects a critical and active process in orchestrating interaction between leukocytes and the endothelium for an effective host response, while minimizing collateral tissue damage. As a result, both plasma levels of cAMs and their sheddases are subject to change during infection and sepsis. Additionally, compelling, albeit limited, data suggest changes of levels of cAMs in CSF in adult and pediatric meningitis. To date, some evidence exists of changes in levels of cAMs during malaria (in children from Malawi) and sepsis, although not sensitive enough to predict outcomes in the clinic. Those levels have never been assessed simultaneously with levels of their sheddases in blood or CSF as a diagnostic tool. We propose that this combined approach may provide more detailed information about the extent of inflammatory activation in neonates.While a balance in levels is maintained under resting conditions or mild (local) infection, it may be perturbed during sepsis or meningitis . Thus, simultaneous measurement of these levels could promote early identification of infection, and may even distinguish between mild infection, systemic infection or meningitis. Currently, manufacturers are rapidly developing Luminex® technology as an advanced, fast, high-throughput and clinically feasible bedside tool for such an approach. We hypothesize that incidence rates of neonates with infection in Suriname are high. We further hypothesize that, upon signs of infection, the simultaneous measurement of cAMs and their SEs in serum and CSF discriminates between infected and non-infected neonates. We aim to: 1) identify and follow neonates at the Academic Hospital Paramaribo with signs of infection to establish incidence rates of infection, and 2) investigate diagnostic potential of our proposed biomarker combination in these neonates for infection, type of infection (e.g., local (mild), sepsis or meningitis) and outcomes.