View clinical trials related to Enteropathy.
Filter by:EE is increasingly recognized as a key factor underlying malnutrition, weakened immune response and impaired cognitive development in children in developing countries. Absence of a distinct biomarker of EE in the blood, urine or stool makes it difficult to study the impact of interventions against it. Biomarkers for EE have been challenging to find, partly because of our inadequate understanding of its pathophysiology. Investigators aim to identify novel biomarkers for EE, based on our hypothesis that EE is a result of two processes: 1) repeated exposure to enteric pathogens and environmental toxins leading to gut inflammation and 2) weaning on diets high in carbohydrates but low in proteins and fat, leading to atrophy of the intestinal mucosa. This leads to gut dysfunction, including leaky gut, small bowel stasis, bacterial overgrowth, decreased immune response to infections, and frequent diarrhea. The candidate biomarkers investigators have selected for our study (CRP, GLP- 2, Claudin 3, Reg-1, plasma amino acids profile, serum cytokine profile, Neopterin and Myeloperoxidase) are markers of inflammation, hormonal dysfunction and tight junction malfunction of the small intestines. The 'gold standard test' for EE will be direct histopathologic analysis of the duodenal mucosa, which will be available in a subset of study children undergoing upper GI endoscopy. For other study subjects, clinical surrogates for EE will be used to calculate the sensitivity and specificity of biomarkers being tested. These clinical surrogates of EE include HAZ and WAZ score < 2 SD at 12 months and 15 months of age, and the worsening in HAZ and WAZ scores between 6, 9, 12 and 15 months of age. Investigators plan to study and compare duodenal biopsies from children with and without EE using cutting edge technologies including electron microscopy, immunofluorescence, and mRNA sequencing. This will allow direct correlation of the biomarkers in the blood, urine and stools with the histopathologic features of the gut mucosa. The mRNA sequencing of the gut tissue will allow us to identify new evidence-based biomarkers for EE, which could be further tested in the future. This is a strong, multidisciplinary collaboration between investigators in Pakistan and the United States with expertise in complementary areas including chemokines, inflammation, gut architecture, infectious diseases, field studies, and technology development.
This study will seek to determine if whole genome sequencing (WGS) improves diagnostic rates, and outcomes for congenital diarrhea and enteropathy (CODE) patients. The investigator will enroll 180 patients in a randomized controlled study to either WGS or whole exome sequencing (WES). This study is designed to evaluate whether CODE patients would benefit from WGS guided precision medicine.
Linear growth failure, a manifestation of chronic undernutrition in early childhood, is a recalcitrant problem in resource constrained settings. The underlying causes of growth failure are multifactorial, but persistent and recurrent infection and inflammation of the gastrointestinal tract and immune activation, a condition commonly referred to as environmental enteropathy, is an important contributor. A highly enriched 13C-Sucrose Breath Test, a measure of sucrase-isomaltase activity, will be evaluated as a non-invasive biomarker of environmental enteropathy, and more specifically of intestinal brush border enzyme activity in 6 resource poor countries (Bangladesh, India, Jamaica, Kenya, Peru and Zambia) in 100 volunteers aged 12-15 months (total n=600) and evaluated relative to the lactose rhamnose test and linear and ponderal growth over a 3-6 month period following biomarker assessment. Field usability will also be assessed.
Researchers are trying to determine if withdrawal of budesonide therapy in patients with immune-mediated enteropathies doing well on therapy will result in worsening symptoms, histology, quality of life, and micronutrient/nutritional status when compared to continued therapy.
Environmental Enteropathy (EE) is an acquired sub-clinical inflammatory gut condition in which alterations in intestinal structure, function, and local and systemic immune activation lead to impaired vaccine responses, decreased cognitive potential and undernutrition in low-middle income countries. Approximately half of all global deaths in children aged less than five years are attributable to undernutrition making the study of EE an area of critical priority. However, given the operational limitations and ethical considerations for safely obtaining intestinal biopsies from young children in low resource settings, there have been few detailed investigations of human intestinal tissue in this vulnerable patient group for whom reversal of EE would provide the greatest benefit. EE biomarkers have been studied in different settings but these have not been correlated with the gold standard histopathology confirmation. The Study of Environment Enteropathy and Malnutrition in Pakistan (SEEM Pakistan) is designed to better understand the pathophysiology, predictors, biomarkers, and potential management strategies of EE to inform strategies to eradicate this debilitating pathology.
The CHAIN Network aims to identify modifiable biomedical and social factors driving the greatly increased risk of mortality among young undernourished children admitted to hospital with acute illness, as inpatients and after discharge. The study will inform priorities, risks and targeting for multi-faceted interventional trials. CHAIN is a multi-centre cohort study with a nested case control analysis of stored biological samples. Study sites are located in Africa and South Asia. Children will be recruited at admission to hospital, stratified by nutritional status. Exposures will be assessed at admission, during hospitalisation, at discharge, and at two time points after discharge. The main outcomes of interest are mortality, re-admission to hospital and failure of nutritional recovery up to 180 days after discharge. To determine community health norms, an additional sample of children living in the same communities will be enrolled and assessed at one time point only.
This project is a community-based randomized controlled trial designed to test the effectiveness of two point-of-use water treatment technologies to improve clean drinking water access, reduce enteropathogen burden, and improve child growth among children in Limpopo, South Africa.
To determine if 6 months of legume-based complementary foods is effective in reducing or reversing EED and linear growth faltering in a cohort of Malawian children, aged 6-11 months to see if these improvements are correlated with specific changes in the enteric microbiome.
Broad - to examine the result of feeding RS to 3-5 year old rural Malawian children on zinc homeostasis and environmental enteropathy (EE). Specific - 1. To measure zinc status using a dual zinc stable isotope assay before and after administering resistant starch (RS) in 20 children. 2. To measure intestinal function using a site-specific sugar absorption test before and after administering RS in 20 children. 3. To determine the relationship between RS and zinc homeostasis. 4. To determine the relationship between RS and environmental enteropathy.
The purpose of this study is to investigate the therapeutic effectiveness of high-dose zinc therapy and de-worming albendazole as separate interventions in restoring normal gut absorptive and immunological function as measured by the dual sugar permeability test and additional biomarkers in 1-3 year old rural Malawian children at high risk for Environmental Enteropathy.