View clinical trials related to Intestinal Infection.
Filter by:The concept that the roots of cardiometabolic disease start in early life was established by Dr. David Barker, who documented relationships between low birthweight (as a marker for challenges during gestation) and later cardiovascular disease (CVD). Later work has suggested that post-natal challenges (similar to prenatal ones) may also exhibit links to later cardiometabolic disease, with the strongest links appearing to be between low weight in early childhood and later hypertension and high waist circumference (WC). However, assessments for the relationship between early childhood challenges and insulin resistance and glucose regulation have been lacking and long-term cohort studies are few. In this project, we aim to assess children initially followed as part of The Etiology, Risk Factors, and Interactions of Enteric Infections and Malnutrition and the Consequences for Child Health (MAL-ED) study, where they received frequent measures of anthropometry and laboratory assessments for intestinal pathogens. These children are now of peri-pubertal age--a time period associated with metabolic shifts. We will assess for glucose dysregulation and findings associated with the metabolic syndrome, and we will analyze potential associations between current chronic disease risk findings with early life poor growth and intestinal pathogen carriage rate. As such, we hope to uncover potential targets in early life health to reduce later chronic disease risk.
The clinical courses of COVID-19 in children are reportedly mild, and may therefore readily escape diagnosis. Prolonged intestinal virus shedding has been reported in children, thus rendering the pediatric population a potentially important source of virus transmission. However, the infectious potential of SARS-CoV-2 (severe acute respiratory syndrome coronavirus type 2) excreted in the stool has remained enigmatic. The investigators hypothesize that stools carrying the virus can represent a source of infection, at least in a proportion of instances, and therefore intend to screen stools of children admitted to the hospital regardless of the indication in order to assess the frequency of intestinal virus excretion. The screening will be performed by validated RTQ-PCR (reverse transcription quantitative polymerase chain reaction) assays. In positive cases, stool extracts will be used to inoculate permissive cells (e.g. VeroE6) under BSL3 (Biosafety Level 3) conditions, and the infectious potential of the viruses will be determined. The readout will be based on the assessment of cell cytopathic effects and on the expression of subgenomic mRNA. it is expected to recruit ~100 patients for the study. Additionally, the investigators will specifically examine children admitted to the hospital because of COVID-19, and will determine the temporal correlation between viral loads in the upper respiratory tract (URT) and serial stool specimens as well as swabs from the palms and from the oral cavity using RTQ-PCR. Longitudinal studies on the infectious potential of viruses from the URT and stool will be performed using the experimental approach outlined above. For this part of the study, is is intended to recruit ~100 children. Furthermore, samples derived from >200 patients from our biorepository will be used. The insights gained from the study will greatly expand the knowledge on the epidemiological and clinical significance of SARS-CoV-2 infections in children. If stools are identified as a potential source of infection, the data will have an important impact on safety measures in specific settings such as the kindergarten.
A national data registry of patients receiving the rescue fecal microbiota transplantation for the refractory intestinal infections from the China Microbiota Transplantation System was designed to assess the short-term and long-term safety and efficacy.