View clinical trials related to Allergies.
Filter by:The aim of this study is to validate a blood test that can identify safe foods for food protein-induced enterocolitis syndrome (FPIES). This study proposes a solution to the problems of FPIES by developing a new blood assay that screens a large number of foods (more than 20) in a culture plate. If this blood test is successful it may be able to identify safe foods more quickly. The study will recruit 10 participants that will have more than 2 trigger foods.
The environment during the prenatal period and in early life is a major contributor to the risk of developing childhood asthma. Birth cohort studies from single research centers have identified several factors that affect the risk for developing childhood asthma, including being exposed in early life to allergens, pollutants, viruses and bacteria, and psychosocial stress. Despite such advances, further progress in understanding the root causes of asthma have been hampered by the small size of previous studies, which makes it difficult to: 1) identify asthma risk factors with certainty, 2) know how environmental factors across the United States (U.S.) affect asthma, and 3) whether there are critical ages when pregnant mothers, infants and young children are particularly susceptible to these influences. Furthermore, different research groups tend to use different methods to study asthma, making it difficult to either compare or pool findings. One other challenge is that there are several types (i.e. phenotypes, endotypes) of childhood asthma, but these are poorly understood. To help overcome these challenges, investigators leading 12 asthma birth cohorts across the U.S. have established the Children's Respiratory Research Workgroup (CREW) consortium. CREW proposes to identify specific types of childhood asthma, develop an understanding of what early life environmental influences cause these different types of asthma and when, and identify targets for future efforts aimed at preventing childhood asthma.
The goal of the Upstate KIDS Study is to track the growth, development and long-term health of children given the increasing use of infertility treatment, occurrence of maternal obesity and pregnancy complications, and rising maternal age at birth.
The study probes the effects of combined exposures to diesel exhaust and allergens on lung function and on the immune system, specifically focusing on the ability of a particle depletion technique to attenuate effects we and others have seen previously. Individuals are exposed to either filtered air (FA), carefully controlled levels of diesel exhaust (DE) or particle-depleted diesel exhaust (PDDE) in our exposure chamber, after which the investigators will administer an inhaled allergen challenge. 48h later, a procedure called bronchoscopy is used to collect samples from the lungs. After 1 month, the entire procedure is to be repeated with one of the alternate exposures. This will be repeated 4 times (4 exposures; 2 filtered air, 1 diesel exhaust, 1 particle-depleted diesel exhaust)
The investigators are investigating the effects of combined exposures to diesel exhaust and allergens on lung function and on the immune system. After exposing individuals to either filtered air or carefully controlled levels of diesel exhaust in our exposure chamber, The investigators will use a procedure called bronchoscopy (whereby a thin, flexible tube is passed down the throat and into the lungs) to place a small amount of allergen directly in the lung. 48h later, the bronchoscopy will be repeated so that samples can be collected from the lungs. After 1mo, the entire procedure will be repeated with the alternate exposure.
Despite advances in medications, allergic diseases, including allergic asthma continue to rise in prevalence. For this reason, there is a need for a better understanding of the mechanisms of allergic diseases and novel insights into modulating allergic inflammation. The investigators hypothesize that much remains to be learned about the behavior of T effector and T regulatory cells in allergic disease. Furthermore, the investigators hypothesize that novel mechanisms of allergic tolerance may exist, and elucidation of these mechanisms may provide insights into novel therapeutic strategies to control allergic diseases. The investigators will investigate the capacity for T cell tolerance induction in allergic subjects by a novel type of immune tolerizing dendritic cell (it-DC). The investigators will assess whether in vitro generated it-DCs have the capacity to induce antigen-specific T regulatory cells and suppress allergen-specific T effector cell function in vitro. Standardized Cat Allergen extract and Dust Mite Allergens will be used to generate changes in the airways that occur during exposure to allergen. For this investigation, the route of administration will be topical application of the titrated allergen to a bronchoscopically isolated subsegment of one lobe of one lung. The dose of biologic will be determined from prior skin-prick testing.
The purpose of this study is to gain better understanding of how the immune system works in twins with and without allergic disease. Healthy volunteers are not specifically targeted. Healthy non-allergic study participants may be found through the course of evaluation for the presence of allergies.
The specific hypothesis for this study is that there are fundamental differences in T effector and T regulatory cell responses in the lung to allergens in allergic asthma (AA) when compared to allergic nonasthmatics (ANA) that account for the difference in clinical responses. We will address this by comparing T cell responses in AA versus ANA subjects. These experiments will correlate T cell responses with measures of airway physiology using state-of-the art lung imaging and examine mechanisms controlling T cell activation in the airways of AA and the function of airway T regulatory cells during AA.
This is a study for children and adults who are interested in a new therapy for their allergies to dust mite and timothy grass. The new therapy is called sublingual immunotherapy and the investigators are testing if it is safe and well tolerated.
The purpose of this study was to determine the maximum tolerated dose of AL-53817 (Stage A) and evaluate the safety and efficacy of AL-53817 for the treatment of allergic rhinitis (Stage B).