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NCT00282438
Sarcoidosis is a disease believed to be due to immune cells, cells which normally protect the body, but are now attacking lungs, heart, nerves, or other organs or systems within the body. As a result, the affected organs or systems fail to work properly causing difficulty breathing; heart failure; inability of the nerves to respond properly causing numbing, tingling, pain, and progressive muscle weakness; or other symptoms depending on the organ or body system involved. The likelihood of progression of this disease is high. This study is designed to examine whether treating patients with high dose cyclophosphamide (a drug which reduces the function of the immune system) and ATG (a protein that kills the immune cells that are thought to be causing this disease), followed by return of the previously collected blood stem cells will stop the progression of sarcoidosis. Stem cells are undeveloped cells that have the capacity to grow into mature blood cells, which normally circulate in the blood stream. The purpose of the high dose cyclophosphamide and ATG is to destroy the cells in the immune system. The purpose of the stem cell infusion is to evaluate whether this treatment will produce a normal immune system that will no longer attack the body.
NCT00424489
MG may be neonatal, congenital, or autoimmune. Neonatal MG arises from transplacental transfer of ACh receptor antibodies from a mother with autoimmune MG to the fetus. Neonatal MG resolves with post delivery clearance of maternal antibodies. Congenital MG results from a genetic defect in the ACh receptor. Patients with congenital MG do not have ACh receptor antibodies. Both neonatal and congenital MG are excluded from this study. Autoimmune MG, which is the most common form of MG, affects approximately 25,000 Americans. Like most autoimmune diseases, it is associated with particular HLA genotypes, has a female predominance, and environmental factors involved in breaking tolerance to the ACh receptor are unknown. Patients with refractory and severe autoimmune MG will be considered candidates for this study. The purpose of this study is to assess the toxicity/feasibility (phase I) of autologous hematopoietic stem cell transplantation for refractory myasthenia gravis.