View clinical trials related to Intestinal Diseases.
Filter by:The purpose of the study is to evaluate the PK, safety and tolerability of PF-06687234 and [124I]IB-PF-06687234 (simultaneously given) in subjects with moderate to severe Ulcerative Colitis or Crohn's Disease. The study used PET-CT scan imaging to assess the distribution of PF-06687234 and [124I]IB-PF-06687234 over 24 and 72 hours in colon (inflamed and non-inflamed), plasma, colon, liver, spleen, kidney and small intestine.
The availability of noninvasive biomarkers for diagnosis and stratification of inflammatory bowel disease (IBD) courses is lacking. Thus, the aim of this study is to evaluated the accuracy of exhaled breath volatile metabolite analysis on diagnosis and stratification of patients with inflammatory bowel disease.
This is an open-label, 2-cohort study to evaluate the absolute bioavailability, absorption, distribution, metabolism and excretion of TD-1473 in healthy male subjects. Subjects in cohort 1 will receive a single oral dose of TD-1473 and a single intravenous bolus dose of [14C]-TD-1473. Subjects in cohort 2 will receive a single oral dose of [14C]-TD-1473 only.
Fecal microbiome of donor and recipient will be analyzed before and after fecal microbiota transplantation in IBD patients.
Breastfeeding is beneficial to both mother and baby. However, many breastfeeding women are affected by long-term health conditions and need to take medications. Sometimes, concerns about transfer of drugs to infants via breast milk lead the mothers to either avoid breastfeeding or stop their medication. Inflammatory Bowel Disease (IBD) is a chronic condition that is marked by an abnormal response of the body's immune system, and high levels of certain proteins that cause inflammation (Cytokines like Tumor Necrosis Factor-alpha or TNFα). A group of drugs called "biologics" target and stop these proteins from causing inflammation, and have been successfully used to treat this condition. Inflammatory proteins may be present in breast milk of healthy women in variable levels, and may play a role in development of infant's brain and immune system. This study is being conducted to investigate: - Concentration of some of the inflammatory proteins in breast milk of mothers with IBD and healthy controls - Interaction between these proteins and biologics in breast milk of women with IBD - Potential role of these proteins (and their interaction with biologics) on development of infant learning and memory function It has been presumed that concentrations of TNFα and some other cytokines are higher in breast milk of women with IBD, and the biologics can normalize these high levels. Due to precautions for COVID-19, the study now consists of only two mandatory study visits and two optional study visits. The mandatory visits include two home visits in the first 4 months postpartum to complete a participant questionnaire and collect a small sample of breast milk at each visit. The optional study visits consist of two visits at the Hospital for Sick Children for evaluation of learning and memory function of the infant at the ages of 12 and 18 months. Additionally, mothers will be required to complete for their infant subscales of The Ages and Stages Questionnaires®, Third Edition (ASQ®-3) either in person or over the telephone at the ages of 12 months and 18 months.
The objective of this study is to assess the feasibility of a novel colonic and oral fecal microbiota transplantation protocol for the treatment of active pediatric Crohn's disease (CD). Specifically, we will test the hypothesis that a protocol of combination fecal microbiota colonoscopic infusion and oral microbiota capsules (OMC), using live fecal material from anonymous unrelated donors, can improve the disease activity of pediatric CD patients.
Inflammatory Bowel Diseases (IBD) including Crohn's disease and ulcerative colitis are multifactorial diseases leading to chronic inflammation of intestinal mucosa. Their etiology is still unknown. Recently, major advances in the understanding of their pathophysiology have allowed to define them as heterogenic polygenic diseases, occurring in genetically susceptible patients. However, the whole genetic susceptibility does not explain the development of IBD and several data argue in favor of the involvement of environmental factors, which remain to be identified. The aims of this clinical trial are: 1. As main objective: To determine the effects of environmental pollutants on intestinal homeostasis and particularly on inflammatory process and endoplasmic reticulum stress. 2. As secondary objective, to assess in human the genetic susceptibility of intestinal mucosa to environmental chemical compounds (I.e. xenobiotics), its interindividual variability, and its potential involvement in the pathogenesis of IBD.
This study on biologics (Vedolizumab/anti-TNF) in the treatment of inflammatory bowel disease (IBD) patients in Germany extends the prospective documentation of efficacy in induction and maintenance therapy of anti-TNF to the use of Vedolizumab with a particular interest in the construction of a multifactorial model to predict long-term responses and favorable disease outcome or to predict severe side effects caused by therapy with biologics. Little data are available on the efficacy and safety of biologics in Germany in a real world situation. While the increasing use of anti-TNF-alpha antibodies in IBD-patients the new therapy with Vedolizumab opens up new opportunities in IBD-therapy, it may also pose new options and problems in terms of efficacy and predictors of response and potential side effects.
This study evaluates 2 therapeutic strategies (increase infliximab dose or add an immunosuppressant) in patients with inflammatory bowel disease in loss of response to infliximab. Addition of an immunosuppressant may be more efficient at long term and is less expensive.
The goal of the Precision Diagnosis in Inflammatory Bowel Disease, Cellular Therapies, and Transplantation (PREDICT) trial is to apply a systems-biology approach to enable precision diagnostics for the key immunologic outcomes for patients with Inflammatory Bowel Disease, Cellular Therapeutics and Transplantation. This approach will deepen the understanding of the molecular mechanisms driving auto- and allo-immune diseases and serve as a critical platform upon which to design evidence-based treatment paradigms for these patients. This research study will examine the immunology of auto- and allo-immune gastrointestinal disturbances such as Inflammatory Bowel Disease (IBD), Graft-versus-Host Disease (GVHD), and Functional Gastrointestinal Disorder (FGID), as well as the immune manifestations after CAR-T and other cellular therapeutics. The Investigators seek to use blood and tissue samples in order to better understand the mechanisms driving these diseases and their therapies. The Investigators further hypothesize that longitudinal systems-based immunologic analysis will enable the patient-specific determination of the molecular evolution of IBD, GVHD and the response to cellular therapeutics, as well post-transplant defects in protective immunity, and determine which pathways, when perturbed, can cause clinical disease. The discovery of these pathways will lead to improved diagnostic, prognostic and treatment approaches, and to personalized therapeutic decision-making for these patients.