View clinical trials related to Asymptomatic Infections.
Filter by:This is a randomized, controlled, open-label trial of effect of 10% povidone iodine intranasal antisepsis on the detection of Candida auris.
Rationale: Respiratory tract infections (RTI) are a major cause of morbidity in young children in high- income countries and the major cause of mortality in developing countries. Causative bacteria and viruses are regular residents of the nasopharynx of asymptomatic individuals (colonization) and live there together with other presumed harmless commensals, without causing disease. These non-pathological infections/colonization episodes are important for transmission, intermediate step to disease and boost immune responses. The investigators recently validated the use of minimally-invasive nasal sampling methods that can be done at home for the study of host and microbial parameters in adults and children. In this study the investigators will focus on the daily microbial and immunological composition of the nasopharynx during health in relation to symptoms. Primary objective: Associate acquisition of pneumococcal colonisation with levels of pre-existing polysaccharide specific memory B cells. Secondary objectives include: Validate the use of synthetic absorptive matrices (SAM) for detection of respiratory pathogens versus nasopharyngeal swabs (NPS) and saliva; Assess dynamics of URT infection/colonisation and examine its relationship with symptoms, host responses and microbiota; Measure transmission between children and parents and immune responses in parents. Study design: Prospective community-based cohort study.total of 45 children, aged 1-5 years old attending daycare or (pre-)school, will be included, including a pilot of 10 children to assess tolerability. If there are insufficient pneumococcal acquisitions in the study to assess the primary outcome, additional children can be recruited in groups of 3 or 4 children (up to 10). For a subset of participating children, both parents will be asked to self-collect daily saliva during the study. Primary study parameters: Frequency of systemic polysaccharide specific B cells in children that become colonised during the study versus children that do not become colonised Secondary study parameters: Dynamics of respiratory bacteria and viruses during URT infection/colonisation. Presence and load for bacteria and viruses in children in SAM versus saliva and NPS. Local microbiota and immune profiles and association with infection/colonisation and symptomology. For a subset of parents, daily presence and load of bacteria and viruses as well as host immune factors measured in saliva.
Colistin (polymyxin E) is considered a last resort antimicrobial for treatment of infections with multidrug- resistant bacteria, classified by WHO as 'highest prioritized, critically important for human medicine'. WHO suggests to ban or highly restrict its use in animals. In Indonesia, colistin resistance in human Escherichia coli isolates is poorly characterized as it requires specific non-routine tests. Presence of colistin resistance in E. coli in poultry resulted in a ban for livestock in Indonesia in 2020. However, colistin is still suspected to be routinely used in humans in multiple settings but the reasons for these practices are poorly understood. The ban on colistin use in livestock offers a unique opportunity to assess the impact of this intervention on colistin resistance in humans and animals, and how a One Health perspective can strengthen this intervention. This project aims to: i) determine phenotypic and genotypic colistin resistance in E. coli from humans and poultry in Indonesia; ii) assess the impact of the colistin ban on resistance in E. coli in animals and humans; iii) estimate the transmission of colistin resistance between animals and humans; iv) study colistin use and perceptions at the community level; and v) expand the initial colistin ban in the animal production sector into an integrative multi-sectorial One Health intervention, which will be designed and implemented using a community participatory approach. This project will provide a strong scientific basis to AMR policies in Indonesia, with great significance across Southeast Asia.
The objective of this study is simulate the clinical use of a test material within a 24h window. Efficacy will be simulated as the capacity of the material to reduce or clear the anterior nares bacterial population from opportunistic pathogens (e.g. Staphylococcus Aureus, Escherichia Coli, etc).
Rates of antimicrobial resistance are increasing worldwide. There is increasing evidence that physiological gut microbiota is a large reservoir of antibiotic-resistance genes. Healthy gut microbiota is known to prevent the colonization of the gastrointestinal tract by pathogens, the so-called mechanism of colonization resistance, but this protective mechanism can be altered by therapies that impair gut microbiota, including antibiotics with consequent colonization of gut pathogens, including carbapenem-resistant Enterobacterales (CRE). CRE carriers represent an epidemiological threat to other hospitalized patients and to the whole community, but are also at risk of developing clinical consequences of this colonization, including bloodstream infections from these pathogens. Neomycin has shown high efficacy in the eradication of CRE invitro. Neomycin has also been approved to treat hepatic coma by eradicating bacterial in gastrointestinal tract. Therefore, this evidence suggests that this procedure could be useful in eradicating CRE. However, current evidence is mostly limited. The aim of this study is to investigate the efficacy of Neomycin, compared with no intervention in eradicating gut colonization from CRE.
This study is to clarify the distribution characteristics, host and clinical characteristics, disease outcome and risk factors, changes of multiple organs such as cardiopulmonary function and changes in social and psychological indicators during long-term follow-up of omicron variant asymptomatic infections and diagnosed patients
this study is to clarify the epidemiological characteristics of Omicron variant infected persons in Shanghai, such as distribution characteristics, host and clinical characteristics, disease outcome and risk factors. especially asymptomatic infections.
Retrospective single-center cohort study to evaluate the incidence of colonization by multidrug-resistant organisms (MDRO) in mechanically ventilated patients admitted to a large intensive care unit (ICU) for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection during the second wave of COVID-19 pandemic (October 2020-May 2021) in Lombardy, Italy. As secondary outcomes, the study evaluates the overall incidence of infections during the ICU stay and assesses the risk factors associated to bacterial superinfection and MDRO colonization.
Pseudomonas aeruginosa causes severe infections in hospitalized patients. The worldwide emergence of carbapenem-resistant P. aeruginosa (CR-PA) makes infections by these pathogens almost untreatable. The World Health Organization now ranks CR-PA highest in the list of 'urgent threats'. Information for action to prevent further emergence has to come from insight into sources and transmission routes through smart surveillance. At present, a smart surveillance strategy is not available for CR-PA. The aim of this project is to develop a globally-applicable smart surveillance strategy to guide action against the spread of CR-PA. Since P. aeruginosa prefers moist niches, we will focus on the human-water interface. First, highly-sensitive methods to detect CR-PA in specific environmental and human niches will be developed. Subsequently, CR-PA will be collected in three study sites with increasing prevalences of CR-PA, increasingly warmer climates, and different water situations: Rotterdam (The Netherlands), Rome (Italy), Jakarta (Indonesia). CR-PA will be searched for in a variety of niches in the environment outside and inside the hospital, and in healthy humans and hospitalized patients. Whole genome sequencing will be performed to compare the CR-PA from different sources and identify transmission routes. Our project will provide insight into the relative contribution of the different potential reservoirs of CR-PA to its spread in different settings which will be used for the development of a globally-applicable surveillance strategy for CR-PA to guide preventive actions.
Fungal colonization causes opportunistic infection that may manifest when the host's immune status deteriorates. The purpose of this study was to determine the prevalence of fungal colonization in immunocompromised subjects compared to healthy controls.