View clinical trials related to Celiac Disease.
Filter by:This study is designed to evaluate the efficacy of a single dose of larazotide acetate in preventing intestinal permeability changes induced by a 6-week gluten challenge in subjects with celiac disease
The main purpose of this study is to determine the safety of weekly injections of Nexvax2 given for three weeks to patients with coeliac disease who have been on a gluten-free diet. The second purpose of this study is to compare the immune response over the three week study period in coeliac disease patients given Nexvax2 compared to those given saline.
This is a Phase 0, Double-blind study that will assess the effect of in vitro treatment of gluten with ALV003 or with placebo when ingested by CD Subjects.
Oral supplementation with enzymes that can cut gluten has been suggested as a potential treatment modality for coeliac disease. In the present study the investigators wish to determine if co-administration of such an enzyme, a prolyl endoprotease derived from the food grade organism Aspergillis niger (AN-PEP), is capable of detoxifying 8 grams of gluten in a commercial food product.
This proof-of-principle clinical trial at Mayo Clinic studies how patients and their physicians understand and utilize predictive genetic risk assessment. A critical goal of this clinical trial is to understand how individual patients and their doctors perceive and respond to genetic risk information that is largely uncertain.
This study, done in collaboration with Cornell University in New York, will explore the potential role of the body s immune response to gluten in ataxia. Celiac disease is an autoimmune disorder that is triggered by the ingestion of wheat gluten and related proteins in genetically susceptible individuals. Some people with celiac disease also develop ataxia, which is a loss of muscle coordination, leading to imbalance. The cause of the associated ataxia is not well understood, but it is suspected to be related to the immune response towards gluten in these patients. Preliminary results indicate that antibodies in people with celiac disease can react with brain proteins, which might have a role in the associated neurologic deficits. The aim of this study is to characterize the immune response in the ataxia that is associated with celiac disease. People 18 years of age and older with 1) ataxia and no celiac disease, 2) ataxia plus celiac disease and 3) matched healthy control subjects will be enrolled at the NIH. People with celiac disease only will be enrolled at Cornell University. All participants have a blood sample drawn for various tests of immune function as well as genetic tests. Healthy volunteers also have a history and physical examination if they have not had one done at NIH in the past year. Some patients may require additional clinical evaluations for clinical or diagnostic reasons.
Undetected or untreated CD may cause severe complications later in life, such as autoimmune disorders. It is recommended for subjects with autoimmune diseases or at risk for CD to be screened for CD and to repeat serological screening about every three years to detect cases of clinically silent, late-onset CD. Celiac disease (CD) auto-antibodies against tissue transglutaminase (anti-tTG) are produced in the intestinal mucosa even when not measurable in serum. By using the phage display libraries technique it is possible to investigate in vivo (intestinal biopsy) early antibody responses in autoimmune disease. In particularly, this technique demonstrated that the humoral response against tissue transglutaminase occurs at the intestinal mucosal level, and that the human VH5 gene is the commonly used variable region by the celiac patients to build the anti-tTG. The intestinal mucosa production of IgA anti-tTG could be important in the diagnostic work-up of early-stage CD, when mucosal histology is not yet diagnostic. The investigators propose to 1) first degree relatives of CD patients, 2) subjects with autoimmune disease, 3) symptomatic subjects (genetically predisposed to gluten intolerance) tested negative for CD related autoantibodies and with apparently normal intestinal mucosa a prospective study to uncover early-stage of gluten intolerance by measuring the mucosal VH5 restricted gene family anti-tTG clones in two biopsies: before and after one year of gluten free-diet (GFD). Aims of this clinical trial are: 1. to measure by means of phage display libraries the gluten dependent humoral immune response (anti-tTG) of the intestinal mucosa in subjects with high risk of untreated CD, without CD-related intestinal lesions. 2. to demonstrate the mucosal gluten-dependent immune response before and after 12 months of gluten-free diet 3. to demonstrate that dietary intervention might modify the clinical condition (e.g improvements of the gastrointestinal complaints or extra-gastrointestinal symptoms) of the enrolled patients and the improvement of the intestinal inflammation with the disappearance of the mucosal anti-tTG. 4. to evaluate the specificity of the double staining technique for detecting IgA antitransglutaminase mucosal deposit with the phage display antibodies assay
The disappearance of intestinal parasites from humans in developed countries may be responsible for the upsurge in many diseases including Celiac Disease, Crohn's, ulcerative colitis, asthma and hay fever. A parasite's survival relies on its ability to interfere with the host's immune response. The mechanisms employed to do this are similar to those required by a person to regulate against the so-called autoimmune disorders, diseases in which the system turns on itself. The investigators suspect that when parasites are excluded from the environment, some individuals become sufficiently self-reactive to develop an autoimmune disease. American researchers have successfully treated patients with Crohn's and ulcerative colitis using a pig whipworm (Trichuris suis). The investigators have undertaken a similar preliminary study using a human hookworm in Crohn's patients. Using a small group of healthy people with celiac disease, the investigators will test if a human hookworm, Necator americanus, inhibits immune responsiveness to gluten. Celiac disease is a very common autoimmune-like disease (1% of Americans are affected although only a minority are aware they have the condition). In this condition, an individual becomes reactive to gluten, a protein in foods derived from wheat, barley, oats and rye. What makes celiac disease such a good model for Crohn's disease is that similar immune changes are common to both, but in celiac disease the people are usually well, are not taking powerful immune suppressive drugs and the provocative antigens (the molecules that engage the immune system and provoke the disease) are known and can be excluded or introduced. As well as being of direct benefit to people with celiac disease, this study may give direction as to the potential of this parasite to manage inflammatory bowel disease. People with proven celiac disease who live in Brisbane, a modern Australian city, will be invited to participate. Enrollment will require that the candidate has been avoiding gluten for six months. The study is a blinded study (where the researchers and study subjects do not know who has gotten the parasites) aimed at comparing the disease activity and immunity after a controlled breach of the gluten-free diet in individuals with celiac disease, before and after hookworm infection. The disease severity and the immune system of celiac subjects before and after being inoculated with N. americanus will be examined using conventional and experimental investigations. This group's immunity will be compared to that of a group of matched, celiac control subjects (not infected with hookworm), before and after eating four pieces of standard white bread each day for three to five days. Twenty people, ten subjects per arm, will be recruited. Ten larvae initially, then five more after twelve weeks will be placed on the skin under a light dressing for thirty minutes. The investigators aim to test whether the hookworm infection will change the immune processes and suppress gluten sensitivity in people with celiac disease. Outcomes to be measured will be those that reflect the activity of celiac disease.
ALV003-0812 is a study of the safety and tolerability of a study drug (ALV003) in healthy adult volunteers and in patients with well-controlled celiac disease, following a meal that contains gluten.
The purpose of this study is to determine whether age at introduction of gluten-containing cereals (e.g. wheat) plays a role in influencing the risk of celiac disease (CD) development in infants with a first-degree relative affected by CD.