View clinical trials related to Peanut Hypersensitivity.
Filter by:This is a study to determine if peanut oral immunotherapy (OIT) would desensitize or tolerize peanut allergic patients to peanuts in order prevent peanut allergic reactions.
This is a randomized, double-blind, placebo-controlled, multi-center study comparing peanut oral immunotherapy (OIT) to placebo in the induction of tolerance and desensitization in peanut-allergic children. Eligible participants with peanut allergy will be randomly assigned to receive either peanut OIT or placebo for 134 weeks followed by peanut avoidance for 26 weeks.
An important gap in the management of peanut allergy is that we do not know the threshold dose, below which most peanut allergic individuals will not react. There is likely a spectrum of reactivity to peanut where some individuals react to trace doses, whereas others are able to tolerate larger doses. The purpose of this study is to determine the minimum threshold dose needed to cause a mild objective reaction when peanuts are consumed by peanut-allergic individuals in a carefully controlled clinical setting. 30 peanut-allergic participants aged 7-65 years will undergo a two-day, double blind placebo controlled food challenge. Participants will be gradually fed increasing amounts of peanut, or placebo, until objective allergic symptoms are observed. Statistical modelling of individual threshold doses will be used to determine a population threshold dose, or a level of peanut to which 90% of the peanut-allergic population will not react. Knowledge of threshold doses at an individual and population level is valuable in that it provides critical information for the management of peanut allergy by individuals, their caregivers and health professionals, as well as knowledge of allergen risks to public health agencies and the food industry.
The investigators will perform a double blind, placebo controlled clinical trial with Xolair (omalizumab) at four centers to safely and rapidly desensitize patients with severe peanut allergy. The investigators will determine if pretreatment with anti-IgE mAb (Xolair/omalizumab) can greatly reduce allergic reactions and allow for faster and safer desensitization.
The unifying objective of this project is to determine whether peanut oral immunotherapy (PN OIT) induced clinical tolerance in the context of food allergy is significantly associated with the expansion of a specific regulatory T cell subset (CD45RA- CD25++ FoxP3++) that is thought to be inducible in the gut-associated lymphoid compartment and associated with immunological tolerance. The hypothesis of the study is that the induction of Treg cells will be associated with clinical tolerance. The investigators will measure the change from baseline of induced Treg cells as a frequency of total CD4 T cells during active treatment and compare that between participants who achieve significant clinical tolerance (Tolerance and Partial Tolerance Groups as defined below) and those who do not (Treatment Failure Group).
The objectives of this dose-finding study for the treatment of peanut allergy are: - To determine the efficacy of 3 doses of Viaskin Peanut (50 mcg ,100 mcg and 250 mcg peanut protein per patch) to significantly desensitize peanut-allergic subjects to peanut after 12 months of treatment. - To evaluate the safety of a long-term treatment with Viaskin Peanut.
The primary objective of this study is to evaluate, compared to non-treatment, the impact of a titrated dose (1 mg once a day, then 1 mg twice a day and finally a full 2 mg twice a day) of ketotifen on the adverse event profile emerging from a rapid peanut desensitization protocol, in children with established peanut allergy.
The purpose of the study is to determine how a type of treatment for peanut allergy known as oral desensitization works in the immune system. Objectives 1. To determine whether premedication with desloratidine and ranitidine results in fewer side effects during desensitization procedure. 2. To assess quality of life in peanut allergic subjects before and after desensitization. 3. To compare serum metabolites in peanut allergic and non peanut allergic subjects.
This is a proof of concept study to determine the safety and allergenicity of hypoallergenic peanut product extract as compared to standard peanut extract in an adult population with known peanut allergy. This will be assessed by epicutaneous skin prick testing. The hypothesis is that subjects with previously diagnosed peanut allergy will have less epicutaneous reactions to the hypoallergenic peanut product extract.
This study will assess the clinical potency of several exposure levels of QGE031 in decreasing the sensitivity against peanut allergen.