18 Clinical Trials for Celiac Disease
The primary efficacy objective of the trial is to assess the ability of TEV-53408 to attenuate gluten-induced enteropathy in adults with celiac disease. The primary safety objective of the trial is to assess the safety of TEV-53408 in adults with celiac disease. A secondary objective is to further assess the efficacy of TEV-53408 in adults with celiac disease. The expected trial duration per participant is approximately 86 weeks.
This is a Phase 2a/b, randomized, double-blind, placebo-controlled, parallel-group, 6-arm study to evaluate the efficacy and safety of amlitelimab in adult participants with non-responsive celiac disease (NRCD) who are on a gluten free diet (GFD) with and without simulated inadvertent gluten exposure (SIGE). The primary purpose of this study is to demonstrate the efficacy of subcutaneous (SC) amlitelimab in male and female participants (aged 18 to 75 years, inclusive) with NRCD. The study will assess the effect of amlitelimab when compared to placebo on gluten induced changes in the intestinal mucosa as measured by the villous height to crypt depth (Vh:Cd) ratio. The effect of amlitelimab on participant-reported celiac signs and symptoms along with the safety, tolerability, and pharmacokinetics of amlitelimab will also be studied. Study details include: The study duration will be up to 48 weeks (including a 16-week safety follow-up period) with 10 visits for participants who opt not to enter the optional long-term extension. The study duration will be up to 172 weeks (including an 8-week safety follow-up period) with 22 visits for participants who enter the optional long-term extension. The double-blind placebo-controlled treatment duration will be up to 28 weeks.
GLU001 is a first-in-human clinical trial to assess the safety and tolerability of VTP-1000 for adults with celiac disease. This trial will assess VTP-1000 at various dose levels compared to placebo in a single ascending dose (SAD) and multiple ascending dose (MAD) format. Participants will be followed for a short period of time to assess the impact of VTP-1000 on their immune system (Adverse events, reactions in the blood, and physical exam differences). Participants enrolled in the MAD portion of the trial will undergo a gluten challenge to assess the impact exposure to gluten has on participants after administration of VTP-1000.
The investigators propose to plan for a multi-center randomized controlled trial (M-RCT) to test the effectiveness of novel gluten detection technologies as an adjunct to telemedicine to manage celiac disease in newly diagnosed adults. If successful, the proposed intervention will improve mucosal recovery, promote a shift in current practice of celiac disease management toward long-term monitoring, and represent a significant step toward reducing the severe physical and psychological consequences of celiac disease.
The purpose of this clinical study is to learn more about celiac disease pathogenesis and clinical symptoms. In particular, this study will examine the interactions between biological factors such as, intestinal epithelial cells, microbiota, immune system, genetics, and gluten and their effect on celiac disease clinical symptoms, and severity of tissue destruction and its ability to heal in individuals with celiac disease. Information collected in the study will help researchers to generate better resources to advance celiac disease patient care.
Subjects include: aged 18 to 75 years, inclusive, have biopsy-confirmed disease that is clinically inactive as determined by negative celiac disease (CeD) serology and histology (determined via endoscopy at time of screening), have followed a gluten-free diet (GFD) for ≥6 months as reported by the subject, and be human leukocyte antigen (HLA)-DQ2.5 and/or HLA-DQ8 positive. Study involves the following randomized intervention; 10g gluten + 200mg of Ritlecitinib or placebo
Celiac disease (CD) is a complex disease caused by eating gluten, a protein contained in wheat, rye, and barley. It is well known that many factors contribute to the development of CD, including the genes that you have and the foods that you eat. In the CDGEMM study, we will consider as many of these factors as possible and study how they each contribute to disease development. If the investigators find that any one factor, or combination of factors, increases the risk of developing CD, we will be able to apply this information and help prevent or detect disease in high-risk children in the future.
The aim of this randomized trial is to assess the efficacy of EUS-CPB in the alleviation of abdominal pain in patients with chronic pancreatitis.
This study aims to evaluate the EUS-RFA in terms of efficacy for pain management and improvement in quality-of-life parameters for patients with advanced inoperable pancreatic cancer. The primary objectives of this study are to 1) evaluate the utility of EUS-RFA for pain control and improvement in quality-of-life parameters for patients with advanced pancreatic cancer; 2) to measure the reduction of analgesic medications' requirements in patients affected by inoperable pancreatic cancer.
Physicians need a tracking system for specific treatment modalities, and data to determine the impact of endoscopic ultrasound pain management for patients with chronic pancreatitis.
The investigators propose the Gluten Free Nutrition Optimization through Ultra-processed food Reduction and Improved Strategies for Health (GF-NOURISH) study to demonstrate the feasibility and success of a nutritional education program focused on naturally occurring gluten-free foods and minimizing ultra-processed gluten-free foods. The investigators hypothesize that nutritional educational (GF-NOURISH) intervention will have multiple health benefits
This is a study of immune responses after eating gluten powder in people with celiac disease and healthy controls.
The purpose of this study is to identify people with T1D or celiac disease (CD) early in the course of their disease and to improve the methods of screening for these diseases.
The goal of this observational study is to validate a non-invasive, urine-based diagnostic technology for the detection and differentiation of various gastrointestinal (GI) diseases. This research study intends to enroll participants across a range of demographics and GI disease states including colorectal cancer, small intestinal bacterial overgrowth (SIBO), Crohn\'s disease, and Celiac disease, collect urine samples and clinical data, and use artificial intelligence and machine learning to build disease-specific models which can identify and differentiate a participants' specific GI disease. The main questions it aims to answer are: 1. Does the platform identify a disease signal within each disease cohort, compared to normal controls? 2. How well does the test perform (e.g. sensitivity and specificity/false-positive rate)?
The most clinically meaningful way to discover new targets of T cells in autoimmune diseases is to study the tissues of patients with active autoimmune disease mediated organ inflammation. These tissues contain both cytotoxic and helper T cells that are driving their disease, and these T cells are being guided by TCRs that recognize tissue-specific targets. By collecting tissue when a patient has active inflammation, it is possible to determine which T cells are activated and undergoing clonal expansion in the patient's diseased organ. TScan has developed a genome-wide, high-throughput technology to determine the natural, physiological target of any TCR (Kula, 2019). The goal of this study is to isolate T cells from inflamed tissues and matched blood samples and/or matched normal tissues (for patients with inflammatory bowel diseases). T cell clones that are expanded in diseased tissues relative to blood or normal tissues will be selected and the targets of their TCRs will be defined using TScan's genome-wide, high-throughput target ID technology. The goal of this study is to discover a collection of peptide targets, along with their associated TCRs to be developed as new tolerogenic therapies for patients with autoimmune diseases.
To collect, preserve, and/or distribute annotated biospecimens and associated medical data to institutionally approved, investigator-directed biomedical research to discover and develop new treatments, diagnostics, and preventative methods for specific and complex conditions.
In partnership with Helmsley Charitable Trust, the Sanford PLEDGE Study is a large-scale, observational, feasibility study of general population screening for T1D and celiac autoantibodies. Screening is incorporated into routine health care visits within an integrated health system.
This study is a prospective study designed to assess the effect of pancreatic endotherapy on quality of life, pain levels, pancreatic exocrine function, and endocrine function.