View clinical trials related to Allergic Diseases.
Filter by:This study aims to build up a clinico-biological bank of samples from patients suspected of or suffering from allergic diseases (including asthma) or mast cell diseases in order to support future research in the field of allergic diseases. The biobank will help to identify new prognostic, diagnostic and/or predictive biomarkers.
The goal of this study is to establish a birth cohort that collects prenatal and early life biosamples and environmental samples and rigorously phenotypes young children for food allergy and Atopic Dermatitis (AD) to identify prenatal and early life markers of high risk for food allergy and AD, as well as biological pathways (endotypes) that result in these conditions. Primary Objectives: - To study the role and interrelationships of established and novel clinical, environmental, biological, and genetic prenatal and early-life factors in the development of allergic diseases through age 3 years, with an emphasis on atopic dermatitis and food allergy - To apply systems biology to identify mechanisms and biomarkers underlying the development of food allergy, atopic dermatitis, and their endotypes - To collect, process, and assay or store environmental and biological samples for current and future use in the study of allergic disease development
The purpose of this research study is to assess at how differences in the microbiome (naturally occurring bacteria) of a baby may protect, or put a baby at risk, for allergic problems. The microbiome refers to the thousands of bacteria and molds that live in and on our bodies. The microbiome plays an important role in our health. Differences in the microbiome can affect our immune system in ways that might make some people more likely to get allergies and asthma. Early life events and exposures are very important for establishing the human microbiome. The newborn baby's microbiome changes very quickly during the first weeks and months of life. There is information that suggests C-section birth is associated with higher risk of certain diseases, including allergies and asthma. Some researchers think one reason for this is that passing through the mother's vaginal canal during birth exposes the baby to bacteria that promote healthy immune system development, something that C-section babies don't get. Transferring these potentially beneficial vaginal bacteria to C-section babies may help prevent some diseases later.