View clinical trials related to Infectious Disease.
Filter by:In low and middle-income countries, children admitted to hospital are not similarly ill, and do not all have a comparable prognosis. In fact, understanding at first encounter their risk of developing adverse outcomes (including mortality) could allow a more focused management and the tailoring of specific interventions to decrease in hospital mortality, and post discharge adverse longer-term outcomes. This clinical trial, part of the EChiLiBRiST larger project ("Development and validation of a quantitative point-of-care test for the measurement of severity biomarkers to improve risk stratification of fever syndromes and enhance child survival") has the two-fold objective of: 1. Assessing whether a POINT-OF-CARE rapid triaging test (PoC RTT) based on the quantitative measurement at the bedside of the "prognostic" biomarker sTREM-1 (soluble-triggering receptor expressed on myeloid cells 1) can reliably identify those admitted children with a higher risk of adverse outcomes; and 2. Assessing whether the therapeutic intervention (the L-arginine precursor, L-Citrulline, key in the nitric oxide biosynthesis), administered orally for 28 days to those children aged 1-<60 months identified as "moderate-to-high risk" by the prognostic biomarker can improve outcomes as compared to those receiving an indistinguishable placebo. This second objective will be assessed in a prospective multi-country, multi-site, individually randomised, two-arm, placebo-controlled, double blind clinical trial involving ~888 children 1-<60m of age admitted to hospital and determined to be at high risk of adverse outcomes by their baseline sTREM-1 levels. The trial will compare the efficacy of a twice-daily dose of L-citrulline syrup vs placebo (200-300mg/kg/day depending on weight-band; for 28 days) in reducing adverse outcomes in children with severe disease. The trial will be running independently but in parallel in two high-mortality settings in Mozambique and in Ethiopia.
The overall aim of the study is to provide evidence that introducing soluble triggering receptor expressed on myeloid cells-1 (sTREM-1) evaluation at triaging (first clinical assessment), in combination with IMCI-based guidelines (SoC), is a viable strategy to enhance rapid and accurate identification of febrile children at increased risk of life-threatening infections compared to IMCI-based strategies alone (SoC), and to demonstrate whether this results in enhanced decisions of admission/referral vs discharge, and enhanced overall health outcome of children with acute fever in sub-Saharan Africa.
The purpose of this study is that a video tool coupled with standardized information can increase the patient's understanding of the information and thus optimize their medical care
Only a fraction of individuals infected with microbes develop clinical disease. This observation raises fundamental questions about the pathogenesis of infectious diseases. There is a complex interaction between environmental (microbial and non-microbial) and human (genetic and non-genetic) factors. This will determine the quality of the immune response against the infectious agent and the clinical manifestation. By definition, individuals who die from an infection have defective immunity to the pathogen in question (immune agent (immune deficiency). The investigation of individual variability in the development of infectious diseases began in the early 20th. The first evidence to support the hypothesis that individual variability variability and immune deficiencies were hereditary came from observations of familial cases or genetic isolates genetic isolates (from a homogeneous population) of rare or common infectious diseases, which in some cases Mendelian heredity hat predisposition to infectious diseases runs in families even more so than diseases associated with less determined environmental factors, such as certain cancers. such as certain cancers. Finally, studies comparing the rate of concordance of infectious diseases between monozygotic and dizygotic twins also implicate genetic factors in disease susceptibility. These observations were validated by the discovery of genetic defects associated with severe infectious diseases, leading to proof of concept. While a number of hereditary immune deficiencies associated with susceptibility to multiple pathogens or microorganisms, a growing number of new and rare new and rare immune deficiencies conferring restricted susceptibility to infections caused by a single caused by a single pathogen family, or even a single pathogen, in otherwise healthy children, have recently been identified (one gene, one pathogen). As a result, a dozen Mendelian clinical syndromes characterized by restricted susceptibility are now known. Over the last 20 years, it has been proven that these "idiopathic" infections were immune deficiencies. The investigators now wish to study new severe infections, including but not limited to viral, fungal and bacterial infections. viral, fungal, bacterial and parasitic infections. This should lead to a better understanding of the pathophysiology of each disease, the development of new therapeutics and better patient care.
Murine typhus is a disease caused by Rickettisa typhi, an obligate intracellular bacterium transmitted by rodent fleas. The disease has a worldwide distribution; however the true burden is unknown, related to its non-specific presentation and lack of access to diagnosis in many regions. A systematic review of untreated murine typhus based on observational studies of a total of 239 patients has estimated the mortality associated with the disease at between 0.4% and 3.6%. Scrub typhus is caused by Orientia tsutsugamushi and transmitted by the larval stage of chigger mites (Trombiculidae family). It has been estimated to affect at least one million people each year. A systematic review found varying reports of the mortality associated with untreated scrub typhus ranging from 0-70% (median 6%). Polymerase chain reaction (PCR) based diagnosis of rickettsial infections is only available in one centre (Mahosot Hospital) in Vientiane. A number of hospitals use a variety of point-of-care antibody tests to diagnose rickettsial infections however many of these have not been validated and they are of uncertain sensitivity and specificity. In 2006 results of a two year prospective study of 427 patients presenting to Mahosot Hospital with a febrile illness and negative blood cultures showed that 115 (27%) patients had an acute rickettsial infection, confirmed by serological testing. Among these patients, 41 were diagnosed with murine typhus and 63 with scrub typhus. Antibacterial agents with activity against rickettsial pathogens include doxycycline, azithromycin, chloramphenicol and rifampicin. Azithromycin is often reserved for pregnant women or children below the age of 8 years due to lasting concerns after the tetracycline-associated staining of growing bones and teeth in the past. Evidence is accumulating that doxycycline is superior to azithromycin for the treatment of rickettsial disease. Clinical treatment failures have occurred following azithromycin treatment of murine typhus. The relationship between rickettsial bacteria load and both disease severity and response to treatment has not been characterised. Rickettsial concentrations in blood are generally low, of the order of 210 DNA copies/mL blood for R. typhi and 284 DNA copies/mL blood for O. tsutsugamushi. At present, there is no standard antibiotic susceptibility testing (AST) method for R. typhi and O. tsutsugamushi. The gold standard method for AST for Rickettsia pathogens is the plaque assay which determines minimal inhibitory concentration (MICs) from the smallest antimicrobial concentration inhibiting rickettsial plaque forming unit formation. This method is laborious and time consuming, taking approximately 14-16 days based on species to yield a result. Molecular detection methods are useful for diagnosing patients infected with rickettsial pathogens and has been applied for antibiotic susceptibility testing. Antibiotic susceptibility testing based on DNA synthesis inhibition detecting by quantitative PCR (qPCR) for O. tsutsugamushi clinical isolates has been reported. However, the relationship between antibiotic susceptibility profiles and treatment response has not been studied. There is a need to develop a reliable ex vivo method to characterize the treatment response and compare susceptibility of R. typhi and O. tsutsugamushi to different agents.
A clinical study to assess the efficacy and safety of oral tafenoquine compared to placebo in patients with mild to moderate COVID 19 disease and low risk of disease progression (the "ACLR8-LR" study).
This is an exploratory study to describe the pharmacokinetics of the azithromycin oral and rectal oleogel in humans compared to the reference oral drug to (Zithromax) assess the impact of the novel formulation on bioavailability. The investigators will perform a randomized, balanced, single dose, three-treatment, three-period, crossover oral bioavailability study under fasted conditions to evaluate the safety and tolerability of azithromycin oleogel and compare the bioavailability of the azithromycin oleogel to the reference drug.
Nearly half of child deaths occur during the neonatal period, and 80% of those occur in babies with low birthweight. Although tremendous progress has been made towards reducing under-five mortality globally, declines in neonatal mortality lag behind those observed in older children. Low birthweight babies are at increased risk of poor outcomes compared to those who are term-appropriate for gestational age, including mortality, stunting, and growth failure. Recent evidence has demonstrated that the incidence of wasting and linear growth failure is highest between birth and 3 months of age, substantially earlier than previously thought. Interventions are urgently needed to improve outcomes in low birthweight babies; however, these interventions must not interfere with breastfeeding and thus some well-established interventions used to treat or prevent malnutrition in older children cannot be considered. The investigators recently demonstrated that biannual mass azithromycin distribution reduces all-cause childhood mortality by approximately 25% in infants aged 1-5 months, with stronger effects seen in underweight infants. This study did not include neonates due to the risk of infantile hypertrophic pyloric stenosis (IHPS) that has been hypothesized to be associated with macrolide use during early infancy. However, our study team documented only a single case of IHPS among 21,833 neonates enrolled in a trial of azithromycin versus placebo administered to neonates aged 8-27 days for prevention of infant mortality, documenting no major risk of IHPS associated with azithromycin. Here, the investigators propose an individually randomized trial where participants will receive a single oral dose of azithromycin (administered either during the neontal period or 21 days after enrollment), two does of oral azithromycin spaced 21 days apart, or two doses of placebo to evalute if azithromycin improves nutritional outcome and reduces infectious burden among neonates aged 1-27 days who are either low birthweight (<2500 g at birth) or underweight (weight-for-age Z-score < -2 at enrollment). The primary outcome will be weight-for-age Z-score at 6 months of age compared between arms. The investigators anticipate that the results of this study will provide definitive evidence on azithromycin as an early intervention for low birthweight/underweight neonates, who are at the highest risk of adverse outcomes.
Latin America is one of the worst-hit areas from the COVID-19 pandemic worldwide. Policy responses to COVID-19 in Latin America have sought to reduce viral spread, increase the capacity of the health system response, mitigate negative consequences, and strengthen governance. Few studies have examined the effectiveness of COVID-19 policies in Latin America or explored subnational variation in their effectiveness. In this observational study, the investigators will use a two-stage interrupted time series to estimate the effectiveness of nonpharmaceutical interventions in third-tier subnational units on SARS-COV2 transmission and COVID-19 mortality in Latin America. The investigators will estimate the effects in each local government, and then run a random-effects meta-analysis to obtain pooled effects for each intervention (and combinations of) and heterogeneity estimates. Finally, the investigators will explore potential explanations for the heterogeneity at the local level.
A sufficient number of subjects will be entered into testing to complete 42 subjects per each of the 2 test and 2 control configurations. A total of 84 subjects, testing bi-laterally (168 abdomen and groin sites in total completed, 42 abdomen and groin sites per each test and control material) will be evaluated using the standardized ASTM E1173 test method. Following a 14-day restriction period, subjects will be sampled for baseline, 10 minutes, 6 hours, and 24 hours post application (subjects will not be sequestered) for microbial reduction evaluations. Test day baseline criteria will be set at: abdomen: ≥ 3.0 log10 CFU/cm2, and groin: ≥ 5.0 log10 CFU/cm2.