View clinical trials related to Neonatal Sepsis.
Filter by:Objective of the study is to compare the efficacy and safety of 'Short duration antibiotic' (72hrs) and 'Standard duration antibiotic'(5 - 7days) in preterm neonates ( >28weeks and >1000grams ) with culture negative early onset sepsis.
This study aims to observe the effectiveness of clinical application in guiding anti-infection treatments in AIDS patients with severe pneumonia and/or sepsis using Metagenomic Next-Generation Sequencing-based technology in the real world
The purpose of this study is to describe the population pharmacokinetic characteristics of piperacillin/tazobactam after intravenous administration in pregnant women during pregnancy and delivery, and to evaluate pharmacodynamic effectiveness and safety of piperacillin/tazobactam in pregnant women whose baby are at high risk of developing early-onset sepsis after birth.
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 related 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. This explains why 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. A previous study (EMERAUDE) aimed to identify new biomarkers to early exclude the diagnosis of LOS, in order to limit antibiotic overuse. This study including 230 neonates revealed high performances of IL6, IL10, NGAL and combinations of PCT/IL10 and PTX3/NGAL. The main objective of the present study will be to validate the performances of these biomarkers in another cohort. The secondary objectives will be to explore transcriptomic biomarkers and salivary biomarkers.
Babies and children have an increased risk of getting an infection with a bacteria in the bloodstream (sepsis). It is often difficult for the doctor to determine whether a child has an infection of the bloodstream, because the symptoms are often unclear and can also occur in children who are not sick. To determine whether there is an infection, a little blood is currently taken for a blood test (the blood culture) to investigate whether there is a bacteria in the blood. However, it often takes at least 36 hours before the results of this blood culture are available. That is why antibiotics are usually started immediately to treat the possible infection. However, it often turns out that the blood culture is negative after 36 hours, which means that no bacteria have been found in the blood. Usually the antibiotics are then stopped because it turns out that there was no infection at all. There is currently no good test that can predict whether (newborn) children have an infection or not. That is why too many children are currently wrongly receiving antibiotics. These antibiotics can damage the healthy bacteria in the intestines. There are many billions of 'beneficial bacteria' in the intestine. These play an important role in the digestion of food and protect against external infections. Antibiotics aim to kill bacteria that cause inflammation or infection. Unfortunately, antibiotics also kill some of these beneficial bacteria. In addition, unnecessary use of antibiotics contributes to antibiotic resistance. The aim of this research is to investigate whether Molecular Culture, a PCR based test that can identify bacterial pathogens in bodily fluids within 4 hours, has greater accuracy than traditional culturing techniques for bacteria in blood. If proven, this could lead to faster identification or exclusion of sepsis in children.
Background: Neonatal sepsis is the leading cause of mortality in preterm newborns. The autonomic nervous system modulates the response to sepsis through the cholinergic anti-inflammatory reflex. However, premature neonates exhibit immaturity of the autonomic nervous system, which could increase the risk of sepsis. Kangaroo Care (skin-to-skin contact) may promote autonomic nervous system modulation and maturation in preterm newborns with sepsis. The objective of this study is to determine the effect of Kangaroo Care on heart rate variability in preterm newborns with late-onset clinical sepsis. Methods: A cross-over randomized clinical trial will be conducted, including 20 preterm infants with late-onset sepsis. The autonomic nervous system will be assessed using heart rate variability analysis. The study interventions consist of routine care in an incubator and Kangaroo Care. Randomization will be performed using a four-block permuted design for the two intervention sequences AB: Kangaroo Care - incubator care, or BA: incubator care - Kangaroo Care. Heart rate variability will be recorded using a Polar Rs800 monitor and analyzed with Kubios software. Discussion: This study will provide information on the relationship between Kangaroo Care and autonomic nervous system activity in preterm neonates with late-onset sepsis. These data will contribute to the understanding of the cholinergic anti-inflammatory reflex in neonates and the capacity of skin-to-skin contact to modulate autonomic activity in neonatal infection. Thus, the study seeks to provide initial evidence for the use of skin-to-skin contact as a non-pharmacological therapeutic intervention in neonatal sepsis.
This study aims to compare the clinical outcomes, safety and PD target attainment of the model-based dose and empirical dose of piperacillin/tazobactam in the treatment of LOS in premature neonates, so as to optimize the piperacillin/tazobactam dose regimen.
This study will evaluate the safety, pharmacokinetics and efficacy of ceftobiprole in term and pre-term newborn babies and infants up to 3 months of age with late-onset sepsis (LOS). Ceftobiprole is an antibiotic which belongs to a group of medicines called 'cephalosporin antibiotics'. It is approved for its use to treat adults and children with pneumonia in many European and non-European countries.
Rationale: Early diagnosis of sepsis in neonates is complicated as the signs and symptoms are nonspecific. Although blood culture is the gold standard for the diagnosis, false-negative results and long incubation period of 36-72 hours limits the use of blood culture to rule out sepsis at initial suspicion. Since delay in diagnosis may lead to progressive deterioration, antibiotics are often started empirically at initial sepsis suspicion, awaiting results of the blood culture. Consequently, uninfected infants are often unnecessarily exposed to empirical antibiotics. To reduce unnecessary treatment of non-infected infants, an early, sensitive and specific diagnostic tool would be helpful to guide clinicians faster when to discontinue antibiotics. Molecular Culture (MC) via IS-pro is a novel, advanced, molecular culture technique which is able to culture bacteria within 4 hours after blood sampling. MC might thus be a potential diagnostic tool to detect or rule out sepsis in infants quickly, however data on MC for diagnosis of sepsis in this population is limited. Objective: The aim of this study is to evaluate whether MC is of additive predictive value for the diagnosis sepsis in this vulnerable group. Study design: Prospective observational cohort study. Study population: All infants suspected for neonatal sepsis of both early and late onset will be eligible for study participation. They will be treated according to the standard local guidelines. Intervention (if applicable): In case of a suspicion of sepsis at birth, blood will be collected for a conventional blood culture as part of standard care. Additionally, a blood sample will be collected from the umbilical cord for MC. In case of a suspicion of sepsis not directly postpartum, an additional blood sample will be taken for MC analysis, directly following sampling for conventional culture, implying no extra phlebotomy. Main study parameters/endpoints: The main study parameter is the discordance in positive and negative outcomes of MC compared to outcomes of conventional blood culture. As the diagnostic accuracy of the conventional blood culture (the current gold standard) is being questioned, the predictive value of MC versus conventional blood culture towards clinical sepsis will also be tested.
This study aims to build a predictive algorithm that identifies mother-newborn dyads most at risk of death or complications in the 6 weeks after birth. The investigators will conduct a multi-site cohort study with 7,000 dyads in Uganda and engage with local stakeholders (e.g., patients, healthcare workers, and health policy-makers) to develop an evidence-based bundle of interventions that address key practice gaps and the critical factors leading to death and complications in these dyads. In the investigator's epidemiological study of post-delivery post-discharge outcomes in 3,236 dyads in Uganda (2017-2020), results indicated that most newborn and maternal readmissions were due to infectious illness (i.e. sepsis, surgical site infections, malaria), and primarily occurred early in the post-discharge period. Thus, the focus of this study will be identifying interventions that target these common and early outcomes, for both mothers and newborns, using WHO recommendations, patient and caregiver experiences, and stakeholder recommendations. If successful, results will inform the next steps of this project, which is the external validation of the model and clinical evaluation of a personalized approach to improving health outcomes and health-seeking behaviour for mothers and newborns.