View clinical trials related to Neonatal Sepsis.
Filter by:Maternal immunisation is an evolving field that deserves special attention given its potential to have a significant positive impact on the health of women and children globally, and the potential safety and risk considerations associated with research in this population. The goal of maternal immunisation is to boost maternal levels of specific antibodies to provide the newborn and young infant with sufficient immunity at birth, through trans placental transfer in-utero, to protect them through the period of increased vulnerability. Protection should be adequate to last until they are able to respond to their own active immunisations or infectious challenges. The success of the maternal neonatal tetanus immunisation program demonstrates the utility of this approach. Several other vaccines are recommended in pregnancy, including influenza and pneumococcal vaccines. Promising new vaccines for group B streptococcus (GBS) , respiratory syncytial virus (RSV) and cytomegalovirus are under development. They are targeted for use in pregnant women in high-, middle-, and low-income countries. However, these vaccines are likely to be of most benefit in LMICs that have high rates of vaccine preventable diseases. The second work-package (WP2) of the PREPARE portfolio will describe the baseline maternal and neonatal outcomes using anonymised data collected using the routine Kawempe electronic medical records (EMR) system. Furthermore, comprehensive data on pregnancy, neonatal and infant outcome will also be collected in a prospective cohort of women enrolled in the first and second trimesters while attending antenatal care at Kawempe Hospital with follow-up of the mother-infant pair(s) up until at least 14 weeks postpartum to establish longer term outcomes. Standardised case definitions will be used to classify the outcomes.
Globally, neonatal mortality remains unacceptably high, with little change in the death rate in the first 28 days of life since 1990, despite reductions in under-5 mortality of up to 50% over the same period. In 2014, neonatal deaths accounted for 44% of all deaths in children under 5 with neonatal infection accounting for over a third of all deaths. Group B Streptococcus (GBS) is a major cause of septicemia and meningitis in infants globally and a cause of severe adverse neurodevelopmental outcomes in up to 50% of meningitis survivors. It can also lead to sepsis in pregnant women. GBS acquisition occurs through vertical transmission in 15%-50% of infants born to a vaginally/rectally colonized mother. Maternal colonization is a prerequisite for early onset (EO) and a risk factor for late onset (LO) disease. Our proposal will provide these critical data in Uganda (a country with high neonatal disease burden) in a 12 month pilot study to determine: the burden of GBS disease in a cohort of mother/infant pairs and establish an active surveillance platform for monitoring of early and late onset neonatal infection in term and preterm infants in Uganda and compare this to the burden known for other African countries. This provides essential data on GBS disease outcomes from a high-HIV burden African cohort reflecting the usual standard of care in a low income, highly deprived urban environment. This pilot study will establish minimum disease estimates in the Ugandan cohort to determine the feasibility of a cohort study over three years to determine the level of antibody against GBS in cord blood from pregnancies where women are GBS colonized and non-colonized but whose infants do not develop GBS disease in the first three months of life and compare this to the level in the blood of infants who develop GBS disease. We will compare these results with those from other African countries such as South Africa to enable a robust estimate of potential sero-correlates of protection from natural infection against the most common GBS-disease-causing serotypes.
There is no consensus around the world on the treatment of preterm rupture of membranes, which is one of the important causes of early neonatal sepsis and one of the common causes of prematurity. Different countries, hospitals and physicians can determine different treatment approaches. There is very little scientific data on the benefit of commonly used treatment regimens other than experience. In this study, scientific results will be obtained by comparing the efficacy of treatments (Sulbactam ampicillin or azithromycin ampicillin) in two different hospitals (Hacettepe University Perinatology Clinic and Ankara City Hospital Perinatology Clinic), and it will be shown which treatment regimen reduces early neonatal sepsis and inflammation better. Some samples (vaginal IL-6, vaginal-cervical swab samples for atypical bacteria, cervical swab samples for direct microscopy, serum IL-6) will be taken from pregnant women who develop membrane rupture and these samples will be used as initial inflammation markers. Each physician will decide on the treatment of his own patient, there will be no intervention in the treatment of the patient within the scope of the research. Patients will continue their routine follow-up after receiving their treatment. When the delivery occurs, the level of IL-6 in the cord blood will be examined with other inflammation markers (procalcitonin, crp, complete blood count), and the neonatal inflammation status of the baby will be determined. The low inflammation markers detected in the babies of pregnant women with high initial inflammation values will be compared and it will be determined which treatment is more effective. At the same time, routine neonatal intensive care follow-ups of these babies will be continued and treatment efficiency in terms of early neonatal sepsis will be determined. This study will present scientific data on which treatment is effective in the literature and will guide international treatment guidelines. At the same time, preterm rupture of membranes will show which bacterial agent plays a more role in the etiology and which of the inflammation markers have more sensitivity and specificity, as well as the success of the treatment, which is the subject of the study. The routine use of some examinations (such as cervical PCR) performed before the treatment begins, is a guide in the selection of agent-specific treatment and may shorten the unnecessary drug use and hospital stay; The management of patients may vary according to the initial inflammation parameters. Physicians evaluating the results of this study can evaluate the risk of their babies in terms of early neonatal sepsis according to the initial inflammation values of their patients, and increase and decrease the length of hospital stay.
This study will review practices in relation to chorioamnionitis (CAM) before and after to the implementation of the Neonatal Early-Onset Sepsis (EOS) Risk Calculator to determine the effect in the nursery at Banner - University Medical Center Phoenix. Newborns enrolled will be at least 35 weeks gestational age (GA) and have a maternal diagnosis of at least suspected or confirmed CAM. The data will include those newborns whose assessment and treatment were not guided by the EOS calculator which was implemented on August 28, 2019 and those with which the EOS calculator was utilized. A secondary objective is to show the economic impact with utilization of the EOS calculator. Data collected will include full laboratory workups including complete blood counts (CBC), blood cultures, antibiotic usage, length of time in the newborn nursery and total length of stay.
The investigators will conduct this study to explore the role of Montelukast in treatment of neonatal sepsis and whether it has an effect on inflammatory markers, the duration of antibiotic use, or on the patients´ outcome.
The study will examine if introducing the practice of checking the volume of blood culture samples in neonates by bedside weighing will improve the sensitivity of the test and increase confidence in negative results affecting the rate of extended antibiotic treatment in neonates with negative blood cultures.
Randomized double-blind clinical trial to compare the incidence of microbiological proven late onset sepsis in extremely preterm infants (<1000 grams) that are supplemented with donor milk pasteurized by High Temperature Short Time (HTST) method versus the Holder method.
There are significant variations in antimicrobial consumption across Canadian Neonatal Intensive Care Units (NICUs). Inappropriate and overuse of antibiotics can result in antimicrobial resistance and adverse outcomes among vulnerable neonatal populations. There are limited data on broad-spectrum antimicrobial use, multi-drug resistant organisms (MDRO) prevalence, and effective NICU-specific antimicrobial stewardship strategies. The aim of this study is to develop and implement NICU-specific antimicrobial stewardship strategies at both national and individual unit levels to promote optimal antimicrobial use and decrease the incidence of MDROs.
This study examines the effect of oral probiotic treatment to newborns on preventing hospitalizations, death and colonization with Extended-spectrum beta-lactamase-producing Gram negative bacteria. Half of the babies will receive 4 weeks treatment with an oral mixture of the probiotic Labinic (R) while the other half will receive a placebo mixture.
Sepsis is a very important cause of death and morbidity in preterm infants. There are strong indications that preterm neonates with sepsis could benefit, next to antibiotics, from treatment with pentoxifylline (PTX). Knowledge about optimal dosing is however limited. This study is a dose optimization study using a step-up and step-down model. In order to find the optimal dose, the infusion of pentoxifylline in different dosages will be studied, next to antibiotics with 3 patients per dosage. After the dose optimization study an additional cohort of 10 patients will be treated with the found dosage as a validation of the dose.