View clinical trials related to Crohn's Disease.
Filter by:Human mesenchymal stem cells (MSCs), derived from healthy adult volunteer human donors, can be obtained from bone marrow donation and cultured in the laboratory. MSCs have shown the ability to find injured tissue, reduce and control inflammation, and assist in tissue repair. Prochymal™ MSCs will be infused into patients with moderate-to-severe Crohn's disease. Infusions will occur on two separate days, 7-10 days apart. Patients will be monitored for reduced Crohn's disease symptoms.
This is a multi-centre, randomized, double-blind, dose response clinical study of CDP870 in patients with Crohn's disease.
The purpose of this study is to characterize the skeletal deficits and risk factors for impaired skeletal development in children requiring glucocorticoid therapy. We will compare the bone health of children treated with prednisone for nephrotic syndrome (NS with those treated with prednisone for Crohn's Disease (CD). Childhood NS usually responds to prednisone and is not characterized by pathologies that can impact on bone. In contrast, CD is treated with prednisone, but is independently associated with poor growth and maturation, nutritional deficiencies and inflammation. Due to the differences in the diseases, this comparison will allow us to distinguish between the prednisone-related and disease-related effects on bone in the two disease states.
The study is being undertaken to evaluate whether delayed-release medications, designed to begin to open in the lower intestinal tract, the main site of Crohn's Disease, are more effective than standard systemically delivered drugs to promote remission or response in CD patients. It is hypothesized that the delayed-release medications will go right to the injured tissue and heal the disease more quickly. The delayed-release test drugs are 6-mercaptopurine (at a dose of 40 mg daily) or calcitriol (at a dose of 5 mcg three times a week) versus Purinethol (6-MP at a dose of 1-2 mg/kg body weight daily). Calcitriol is a synthetically manufactured replica of a natural substance in the body that is derived from Vitamin D. There is much medical evidence that shows that lack of Vitamin D can be a possible risk factor in developing autoimmune disorders, including Crohn's Disease. Moreover, calcitriol has been shown in animal models to improve the symptoms of Crohn's Disease.
The primary objective of this study is to evaluate the long-term tolerability and safety of natalizumab when administered a dose of 300 mg intravenously (IV) to subjects with Crohn's Disease who have previously participated in studies CD251, CD301, CD303, CD306, or CD307.
This disease is believed to be caused by immune cells (called lymphocytes) attacking tissue. Risk of death is highest in people with active acute disease. In addition, progressive Crohn's Disease leads to further loss of bowel function, which may eventually result in the need for artificial nutritional support (parenteral nutrition). This study involves high dose chemotherapy followed by return (infusion) of blood stem cells. Stem cells are undeveloped cells that have the capacity to grow into mature blood cells, which normally circulate in the blood stream. The high dose chemotherapy consists of cyclophosphamide and anti lymphocyte antibody (a protein that depletes cells that cause damage to the body). The purpose of the intense chemotherapy is to destroy the immune system completely. The purpose of the stem cell infusion is to restore the body's blood production, which will be severely impaired by the high dose chemotherapy and anti lymphocyte antibody.
Many inflammatory disorders in the body are linked to oxidative tissue damage. Anti-oxidants that are present in many natural food sources may provide protection from such damage. Beta carotene is an anti-oxidant vitamin present in many fruits and vegetables. The algae Dunaliella is particularly rich in beta carotene. In this prospective trial we want to investigate whether beta carotene from Dunaliella may prevent exacerbations of Crohn's disease.
Long-standing ulcerative colitis is associated with an increased cancer risk. Chromoendoscopy with dye spraying can detect subtle abnormalities that are not visible with standard endoscopy. The purpose of this study is to determine if chromoendoscopy with fewer "targeted biopsies" can replace standard colonoscopy with multiple "random" biopsies.
Crohn's disease (CD) is a chronic illness, immunologically mediated, probably induced by the exposure of the intestine to an antigen or antigens similar to the intestine, to which immunologic tolerance is lost or a dysregulated immunity ensues. The disease has a variable course, from a mild, intermittently active illness requiring only symptomatic therapy to a fulminant illness requiring potentially dangerous immunosuppressive therapy, surgery or both. The molecular defect causing CD has not been characterized, but probably involves aberrant T cell function. Although CD often responds to immunosuppressive medication including corticosteroids, azathioprine and 6-mercaptopurine, to anti inflammatory drugs such as 5 aminosalicylate (5 ASA), or to some antimicrobial agents, including metronidazole, no therapy has been curative. In patients with severe CD, who have been unresponsive to corticosteroids, azathioprine, 5 ASA, metronidazole, and infliximab, we propose to compare the efficacy of Crohn's disease non-myeloablative autologous hematopoietic stem cell transplantation (CDNST) to standard therapy. Subsequent disease activity will be followed by (1) Crohn's disease activity index (CDAI), (2) a more global severity index, the Crohn's Severity Index, (3) type and amount of therapy for CD, and (4) clinical, hematologic and biochemical studies.
Clarithromycin may be an effective therapy in Crohn's disease. It is a broad spectrum antibiotic. Crohn's disease, the investigators think, is in some way related to bacteria, which reside in the bowel. Previous studies of different types of antibiotic in Crohn's disease have shown encouraging results. Clarithromycin alters the bacteria in the bowel and gets into cells in the bowel which may contain bacteria. There is some evidence that clarithromycin can stimulate the immune system and improve the function of cells involved in killing bacteria in the bowel.