Active clinical trials for "Hyper-IgM Immunodeficiency Syndrome"

This is a standard of care treatment guideline for allogeneic hematopoetic stem cell transplant (HSCT) in patients with primary immune deficiencies.

OBJECTIVES: I. Provide curative immunoreconstituting allogeneic bone marrow transplantation for patients with primary immunodeficiencies. II. Determine relevant outcomes of this treatment in these patients including quality of survival, extent of morbidity and mortality from complications of the treatment (e.g., graft versus host disease, regimen related toxicities, B- cell lymphoproliferative disease), and completeness of functional immunoreconstitution.

The primary goal of this Phase I/II study is to assess the immune response and safety of recombinant human CD40 ligand (rhuCD40L) in patients with X-linked hyper IgM syndrome (XHIM). XHIM is a rare genetic disease caused by mutations in the gene encoding CD40 ligand. Individuals with this syndrome fail to make gamma immune globulin, frequently suffer from opportunistic infections, and are at an increased risk of developing cancer. Despite treatment with gamma globulin replacement therapy, the expected survival of patients with XHIM is less than 20 percent by the age of 25. In a mouse model of this syndrome, treatment with man-made CD40 ligand protein protected the mouse from opportunistic infections, restored the mouse's ability to make gamma globulin, and improved survival. We want to determine if a similar approach can work in humans with XHIM. The study will be conducted at the Clinical Center of the National Institutes of Health in Bethesda, Maryland. For most patients, rhuCD40L will be administered by injection under the skin over a period of six months and follow-up exams are required at 2-month intervals for an additional 6 months. During the study, patients will be maintained on intravenous gamma globulin, antibiotics to protect against opportunistic infection, and, if needed, growth factors to control neutropenia. The immune response to rhuCD40Lwill be measured by routine methods such as measuring a patient's ability to synthesize gamma globulin when challenged with immunizations to keyhole limpet hemocyanin (KLH) and Bacteriophage Phi-X 174 (Phi-X 174). Our long-term goal is to define a therapeutic regimen that will provide effective immunological reconstitution to patients with XHIM and improve their life expectancy.

The main objective of this study is to see if GAMMAPLEX is efficacious with respect to Food and Drug Administration (FDA) minimal requirements (no more than 1 serious, acute, bacterial infection per subject per year) in subjects with Primary Immunodeficiency Diseases (PID). The secondary objectives are to assess the safety and tolerability of GAMMAPLEX and to determine if GAMMAPLEX has a pharmacokinetic (PK) profile comparable with that of intact Immunoglobulin G (IgG) in subjects with PID.

The primary objective is to demonstrate the bioequivalence of Gammaplex® 10 intravenous immunoglobulin (IGIV) and Gammaplex® 5% IGIV with respect to area under the curve within a 28-day dosing interval (AUC0-28) in a cohort of adult subjects. The secondary objectives are to demonstrate the bioequivalence of Gammaplex® 10 IGIV and Gammaplex® 5% IGIV with respect to area under the curve within a 21-day dosing interval (AUC0-21) in adult subjects; to assess the pharmacokinetics of Gammaplex 10 IGIV and Gammaplex 5% IGIV including Immunoglobulin G (IgG) trough levels and to investigate the safety and tolerability of Gammaplex 10 IGIV and Gammaplex 5% IGIV in adults subjects; to assess the pharmacokinetics of Gammaplex 10 IGIV including IgG trough levels and to investigate the safety and tolerability of Gammaplex 10 IGIV in pediatric subjects.

The main objective is to determine the efficacy of Gammaplex by measuring the number of serious acute bacterial infections during treatment with Gammaplex over a 12 month period. The secondary objectives are to assess the safety and tolerability of Gammaplex and to compare the data collected from adult subjects with PID from the GMX01 study

The main objective of the study is to determine the pharmacokinetics profile of Subgam-VF. The secondary objectives are to assess the safety of Subgam-VF and refine the dose adjustment coefficient for Subgam-VF needed for subjects switching from prior intravenous immunoglobulin (IGIV) therapy.

This study investigates gene abnormalities in Primary Immune Deficiency(PID) with a goal of improving the diagnosis and treatment of patients. The specific disorders include: X linked hyper IgM Syndrome which is caused by an abnormality in the CD40L gene. NEMO associated immune deficiency which is caused by an abnormality in a gene called NEMO. Common variable immunodeficiency (CVID) which has an unknown genetic basis. Other disorders of immunoglobulin production. This study will: Better characterize the clinical features of CD40 L deficiency and NEMO associated immune deficiency and other related primary immune deficiency syndromes. Determine the frequency of CD40 L and Nemo abnormalities. Determine whether particular abnormalities in these genes are associated with more of less severe illness or with specific symptoms. Explore the basic mechanism by which these altered genes cause immune dysfunction. Identify other genes causing low immune globulin levels and related primary immune deficient states.

OBJECTIVES: I. Identify the molecular defects responsible for primary immunodeficiency disorders. II. Explore the mutations within each syndrome to better understand the genetics of these disorders. III. Study the function of the Wiskott-Aldrich syndrome proteins (WASP). IV. Design methods to identify carriers and for prenatal diagnosis. V. Explore new avenues for therapy.