View clinical trials related to Toxemia.
Filter by: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.
This study is an open-label, multi-center, interventional trial in which children with sepsis-induced MODS undergo surveillance immune function testing beginning on Day 2 of MODS. Those children who demonstrate immunoparalysis (TNF-alpha response <200 pg/ml) will receive a 7-day course of GM-CSF at a dose of 125 or 250 mcg/m2/day by either the intravenous (IV) or subcutaneous (SQ) route. The goal of the study is to establish the dose and route of delivery that results in resolution of immunoparalysis (TNF-alpha response >=200 pg/ml) by the morning after the 3rd scheduled dose with persistent resolution of immunoparalysis on the morning after the 7th scheduled dose. Resolution of immunoparalysis in 8 out of the first 10 subjects in a study treatment arm represents a successful dose and route. The goal of this study will be achieved through the following Specific Aims: Specific Aim 1. Establish the immunologic efficacy of GM-CSF administered by the IV and SQ routes in children with immunoparalysis in the setting of sepsis-induced MODS. Specific Aim 2. Estimate the pharmacokinetic parameters by the IV and SQ GM-CSF administered in pediatric sepsis-induced MODS. Specific Aim 3. Demonstrate the feasibility of screening, enrollment, drug delivery, and sample collection for a multi-center immunostimulation trial in children with sepsis-induced MODS.
This study evaluates the efficacy and safety of Rheosorbilact®, solution for infusion ("Yuria-Pharm" LLC), in comparison with Ringer's Lactate, solution for infusion, in a complex therapy of sepsis. Half of participants will receive Rheosorbilact® in complex therapy, while the other half will receive Ringer's Lactate in complex therapy.
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.
Background: Electrical stimulation has been used in critical patients as an adjunct strategy of early rehabilitation. In septic or septic shock patients there are reports of only two studies in the literature, with conflicting results. Objective: To evaluate the effects of electrical stimulation in the prevention of muscle mass loss in patients admitted to the ICU with sepsis or septic shock. Methods: This is a randomized, controlled, double-blind clinical trial. Thirty-six patients with a diagnosis of sepsis or septic shock (including patients with sepsis due to the new coronavirus - COVID-19) will be randomly assigned to experimental group and sham group. They will be evaluated in relation to muscle mass, peripheral muscle strength and functional status. They will also be submitted to the collection of inflammatory, metabolic, damage and muscular trophism markers. Expected results: Electrical stimulation is expected to be able to prevent loss of muscle mass in patients admitted to the ICU with sepsis or septic shock. In addition, it is expected to be able to preserve strength in this population without increasing the pro-inflammatory or metabolic response.
The focus of this study will be to conduct a prospective, randomized controlled trial (RCT) at Cape Regional Medical Center (CRMC), Oroville Hospital (OH), and UCSF Medical Center (UCSF) in which a fluid treatment-specific algorithm will be applied to EHR data for the detection of severe sepsis. For patients determined to have a high risk of severe sepsis, the algorithm will generate automated voice, telephone notification to nursing staff at CRMC, OH, and UCSF. The algorithm's performance will be measured by analysis of the primary endpoint, reductions in in-hospital mortality.
Preeclampsia causes devastating maternal and neonatal morbidity and mortality with a high recurrence risk and a rapid, occult progression to cardiovascular disease after delivery. There is a critical need for effective interventions to reduce these risks. This is a pilot randomized controlled trial of a novel postpartum lifestyle intervention compared to women who take home blood pressure measurements and women with usual care who are overweight and obese in the first year after preeclampsia. The investigators hypothesize that the intervention will lead to improved weight loss and blood pressure in the first year postpartum, which has broad implications for future pregnancy and long-term cardiovascular health.
Population pharmacokinetic modeling mathematically describes the pharmacokinetics of a drug and the variables likely to influence it in a "typical" patient population. We propose to model a Bayesian estimator, taking into account the individual factors that influence exposure to the piperacillin / tazobactam combination in a target population of sepsis, to allow for early assessment of serum Piperacillin / Tazobactam concentration profiles. optimization of dosing regimens. Indeed, pharmacokinetic tools of this type are already regularly successfully applied for other classes of antibiotics or immunosuppressants whose therapeutic index is narrow. They reduce the toxic risk and optimize the effectiveness of these treatments.
This study will analyze gene expression data (HostDx Sepsis test) from blood samples collected from participants with suspected infections. The primary endpoint of the study is to prospectively validate the HostDx Sepsis test for infections. As a secondary endpoint the correlation of participant prognosis and gene expression results in the HostDx Sepsis test will be validated. Participants presenting to the emergency departments of enrolling sites with a suspected infection and 1 vital signs OR suspected sepsis and 2 vital sign changes as stated in the protocol are meeting enrollment criteria