Phase 2/3 Study of IGSC, 20% in PIDD
Primary Immunodeficiency Diseases (PID)The purpose of this study is to develop a 20% subcutaneous (SC) immunoglobulin preparation for the treatment of patients with primary immunodeficiency diseases (PIDD).
A Study to Assess the Safety, Tolerability and Efficacy of TMC435 Along With Pegylated Interferon...
Hepatitis C Virus Genotype-1The purpose of this study is to evaluate the safety and tolerability of TMC435 along with pegylated interferon alpha-2a (PegIFNα-2a) and ribavirin (RBV) triple therapy in hepatitis C virus genotype-1 infected subjects, co-infected with human immunodeficiency virus-type 1, and to evaluate the number of patients with sustained virologic response (SVR) at 12 weeks after the planned end of treatment.
Unrelated Umbilical Cord Blood Transplantation Augmented With ALDHbr Umbilical Cord Blood Cells...
MDSAnemia4 moreThe main purpose of this investigational (not approved by the FDA) Phase I research is to test whether transplantation of umbilical cord blood cells can be safely supplemented with a transfusion of a portion of these cells that have been sorted (collected from a special machine called a cell sorter) and then either infused a few hours after the standard transplant or for some patients grown in a special system in the laboratory prior to the transplant, designed to increase the number of stem cells transplanted. This system is currently in the early phases of testing.
MND-ADA Transduction of CD34+ Cells From Children With ADA-SCID
Severe Combined ImmunodeficiencySevere combined immune deficiency (SCID) may result from inherited deficiency of the enzyme adenosine deaminase (ADA). Children with ADA-deficient SCID often die from infections in infancy, unless treated with either a bone marrow transplant or with ongoing injections of PEG-ADA (Adagen) enzyme replacement therapy. Successful BMT requires the availability of a matched sibling donor for greatest success, and treatment using bone marrow from a less-well matched donor may have a higher rate of complications. PEG-ADA may restore and sustain immunity for many years, but is very expensive and requires injections 1-2 times per week on an ongoing basis. This clinical trial is evaluating the efficacy and safety of an alternative approach, by adding a normal copy of the human ADA gene into stem cells from the bone marrow of patients with ADA-deficient SCID. Eligible patients with ADA-deficient SCID, lacking a matched sibling donor, will be eligible if they meet entry criteria for adequate organ function and absence of active infections and following the informed consent process. Bone marrow will be collected from the back of the pelvis from the patients and processed in the laboratory to isolate the stem cells and add the human ADA gene using a retroviral vector. The patients will receive a moderate dosage of busulfan, a chemotherapy agent that eliminates some of the bone marrow stem cells in the patient, to "make space" for the gene-corrected stem cells to grow once they are given back by IV. Patients will be followed for two years to assess the potentially beneficial effects of the procedure on the function of their immune system and to assess possible side-effects. This gene transfer approach may provide a better and safer alternative for treatment of patients with ADA-deficient SCID.
Donor Stem Cell Transplantation for Congenital Immunodeficiencies
Inherited Immune DeficienciesThis study uses transplantation to treat patients with problems in their immune system. The immune system cells come from the bone marrow where they grow from special cells called stem cells. Giving patients stem cells from someone else may help to cure many patients with certain immune diseases. This is called 'bone marrow transplantation'. This procedure can have side effects that are life-threatening. To try to make transplantation safer we are using lower doses of the medications used in preparing the patient for the transplant. 'Conditioning' treatments are given to patients to create space in their bone marrow. This lets the cells of the donor go into the bone marrow and produce normal immune cells. This study will use lower doses of a drug called busulfan and lower doses of radiation than what are currently being used in other kinds of bone marrow transplantation for other diseases. Another problem that can occur with bone marrow transplantation is 'graft-versus-host disease'. This happens when the cells of the donor attacks different parts of the patient s body. This study will use a medicine called sirolimus instead of the usual medicine, cyclosporine, to prevent graft-versus-host disease. To go onto this study, you must have: A severe immune deficiency, such as chronic granulomatous disease or leukocyte adhesion deficiency. Have problems from the disease that call for stem cell transplantation. You must also be between the ages of 2 and 40 years. Two groups of patients are included in this study: Patients who have a brother or sister that have stem cells that match the patient. This is known as an allogeneic matched sibling transplant. Patients who do not have a matched sibling donor but have a donor that matches in the National Marrow Donor Program. This is know as matched unrelated donor transplantation. Patients will have the following procedures: To create space in the bone marrow, patients are given two drugs, Campath-1H and busulfan. To prevent the body from getting rid of the donated cells, patients are given sirolimus. On the day before the BMT, patients in the matched unrelated donor group also receive a low-dose of whole-body radiation. This will further improve the chances that the patients body will accept the donor cells. Patients will get the donor stem cells through an intravenous (IV) line that goes into a vein in their body. The cells make their way to the bone marrow space and slowly refill the marrow over the next several weeks. Patients will usually stay in the hospital for 30 days after the transplant. For the first 3 months after the transplant, patients are watched closely. The patients will have frequent visits to the clinic. During these visits the patient will have a physical examination and blood tests. The doctor and nurse will also check any symptoms the patient may have. At day 100 after the transplant a sample of bone marrow is taken. Patients will continue to be followed periodically for at least 5 years after the transplant.
Phase IIIb Study to Evaluate the Effectiveness and Safety of Atazanavir/Ritonavir as Single Enhanced...
Human Immunodeficiency Virus (HIV) InfectionsThe main purpose is to explore whether atazanavir/ritonavir (ATV/RTV) single enhanced protease inhibitor therapy can maintain virologic suppression without a marked increase in virologic failure.
Reactogenicity and Immunogenicity of Vaginal CNgp140
HIV InfectionsAcquired Immune Deficiency SyndromeTo determine the local (cervico-vaginal) and systemic (whole body) safety of vaginal immunisation with CN54gp140 glycoprotein administered 9 times over a 3 week period.
Study Comparing Lopinavir/Ritonavir (LPV/r) + Emtricitabine/Tenofovir Disoproxil Fumarate (FTC/TDF)...
Human Immunodeficiency Virus InfectionThe purpose of this study is to compare the safety, tolerability, and antiviral activity of the lopinavir/ritonavir tablet when administered in combination with reverse transcriptase inhibitors to lopinavir/ritonavir tablets when administered in combination with a human immunodeficiency virus type 1 ( HIV-1) integrase inhibitor in antiretroviral naive HIV-1 infected subjects.
Study of Subcutaneous Immune Globulin in Patients Requiring IgG Replacement Therapy
Common Variable ImmunodeficiencyX-linked Agammaglobulinemia1 moreThe objective of this study is to assess the efficacy, tolerability, safety and pharmacokinetics of IgPro20 in patients with primary humoral immunodeficiency (PID).
CHP 834 Unrelated and Partially Matched Related Donor Peripheral Stem Cell Transportation for T...
ImmunodeficienciesThis is a pilot study with 2 strata to evaluate engraftment and graft vs. host disease (GVHD) in patients receiving unrelated or partially matched related donor peripheral stem cells using the CliniMACS system to positively deplete T cells to prevent severe GVHD. Feasibility will be tested, focusing on engraftment, treatment-related mortality (with a specific focus on interstitial pneumonitis) and severe GVHD.