View clinical trials related to Non-celiac Gluten Sensitivity.
Filter by:Familial Mediterranean Fever (FMF) is a chronic hereditary autoinflammatory disease caused by mutations in the MEditerranean FeVer (MEFV) gene which codes for pyrin. Dysfunction of this protein determines an inappropriate response to inflammatory stimuli. The clinical course of the disease is characterized by recurrent episodes of fever and inflammation of the serous membranes, which manifest with chest, abdominal and joint pain. Several studies suggest a possible association between acute FMF attacks and dietary triggers, including wheat. However, it is still unclear to what extent wheat is responsible for the reactivation of FMF and if, between one acute attack and another, patients with FMF experience other symptoms, both gastrointestinal and extraintestinal, characteristic of gluten/wheat sensitivity not linked to celiac disease or immunoglobulin E (IgE)-mediated wheat allergy (i.e. Non-Celiac Wheat Gluten/Sensitivity, NCGS/NCWS). Therefore, this study aims to evaluate the appearance of symptoms compatible with an acute attack of FMF following the ingestion of wheat or other foods, and the prevalence of self-perceived gluten/wheat sensitivity in patients with FMF.
This study aims to assess the differences in tolerability of differently manufactured wheat breads in a target group of individuals with suspected wheat sensitivity. Additionally, it will be verified, if the absence of a response to oral exposure to defined bread types is associated with an absence of mucosal changes following CLE-assisted mucosal provocation with bread.
Recent data show that some foods can increase intestinal mucosa permeability and immune activation of subjects with gastrointestinal (GI) symptoms. Wheat seems the most frequent food which activates this inflammatory response and can cause both GI and extra-intestinal symptoms. Patients suffering from wheat-related troubles, in absence of celiac disease diagnosis, can suffer from non-celiac wheat sensitivity (NCWS) and our previous studies showed that about 25% of them are also affected by autoimmune diseases (AD). A gluten-free diet (GFD) can influence inflammatory pattern of AD, including Sjogren's syndrome (SS). Thus, the investigators would enquire if SS patients may also suffer from NCWS and how a wheat-free diet (WFD) modifies their clinical features, and inflammatory and cytokine pattern. The investigators will also assess how wheat reintroduction, by an open challenge, modifies their clinical parameters, intestinal permeability, and both local and systemic inflammatory response.
To investigate the use of hyperimmune bovine colostrum to reduce gluten absorption. A double-blind, cross-over study will be performed in which persons who are following a strict gluten-free diet will be challenged with oral gluten with or without the bovine colostrum.
Recent data suggest that the brain-gut axis, chronic intestinal inflammation and microbiome may contribute to the pathogenesis of neurodegenerative diseases with alfa-synucleinopathy, which include Parkinson's disease (PD) and Multiple system atrophy (MSA). Environmental factors e.g. diets, microbiome, metabolites and immune mechanisms may play important role in pathogenesis of these diseases. In the human arm of this project, the investigators will address effects of an anti-inflammatory gluten-free diet (GFD) on motor and non-motor symptoms as well as its effects on immune and metabolomic characteristics in patients with PD and MSA. In the mouse arm, the investigations will focus on the effects of GFD in chronic MPTP-induced mouse model of PD in various settings (e.g. in young or aged animals, with respect to the lengths of exposure to GFD). The chronic MPTP model will be used to assess the effects of GFD on adaptive and immune characteristics, and metabolic signatures. Using germ-free animals, the microbiome-dependency of the GFD-mediated effects may be determined. The anti-inflammatory gluten-free diet and its related mechanisms represent novel, promising and relatively straightforward approach in a search to improve symptoms of PD as well as MSA or even in their prevention.
Study to demonstrate the efficacy of Probiotic ES1 in alleviating symptoms of gluten sensitivity in non-celiac gluten sensitive subjects exposed to a small, fixed amount of gluten.