Active clinical trials for "Granulomatous Disease, Chronic"

This protocol describes a prospective, randomized study examining the safety and efficacy of Itraconazole for preventing fungal infections in patients with Chronic Granulomatous Disease (CGD). CGD is a genetic disorder in which phagocytes are unable to produce oxygen radicals. As a result, affected patients are prone to recurrent, severe infections with bacterial and fungal organisms. Patients with CGD of 5 or more years of age without evidence of infection at the time of study entry will be eligible for enrollment. Patients will be randomized to receive itraconazole or placebo tablets daily, in a double blinded fashion. In addition to itraconazole, all patients will receive antimicrobial prophylaxis against bacterial infection, and may in addition receive gamma-interferon as prophylaxis against infection. Randomization of patients will be stratified among patients receiving or not receiving gamma interferon. The primary endpoint of the study will be the development of culture or histologically proved invasive fungal disease. Patients will be monitored every three months for evidence of drug toxicity. The anticipated accrual period will be approximately 36-48 months.

This study will investigate the safety and effectiveness of a new stem cell transplant procedure for treating chronic granulomatous disease (CGD) in patients with active infection. CGD is an inherited disorder of neutrophils-a type of infection-fighting white blood cell-that leaves patients vulnerable to life-threatening infections. Standard treatment with antibiotics, and sometimes surgery, is not always successful, and patients with persisting infections have a poor long-term prognosis. Transplantation of donated stem cells (cells produced by the bone marrow that mature into the different blood components-white cells, red cells and platelets) can cure CGD. However, this procedure carries a significant risk of death, particularly in patients with active infection, because it requires completely suppressing the immune system with high-dose chemotherapy and radiation. In addition, lymphocytes-another type of infection-fighting white blood cell-from the donor may cause what is called graft vs. host disease (GvHD), in which the donor cells "see" patient's cells as "foreign" and mount an immune response to reject them. To try to reduce these risks, patients in this study will be given low-dose chemotherapy and no radiation, a regimen that is easier for the body to tolerate and involves a shorter period of complete immune suppression. Also, the donor's lymphocytes will be removed from the rest of the stem cells to be transplanted, reducing the risk of GvHD. Patients with CGD between the ages of age 1 and 55 years old who have an active non-viral infection may be eligible for this study. They will have a medical history, physical examination and blood tests (including testing for adequacy of the genetic match with the donor). A bone marrow sample will be taken to evaluate disease status. This test, done under a local anesthetic, uses a special needle to draw out bone marrow from the hipbone. A central venous catheter (flexible plastic tube placed in a vein) will be put in place before treatment begins. It will be used to draw and transfuse blood, give medications, and infuse the donated stem cells. Several days before the transplant procedure, patients will start low-dose chemotherapy with cyclophosphamide and fludarabine, two commonly used anti-cancer drugs. They will also be given anti-thymocyte globulin to prevent rejection of the donated cells. When this conditioning therapy is completed, the stem cells will be infused through the central line. Patients will be given cyclosporine 4 days before and 3 months after the stem cell transplant to help prevent rejection. About 3 weeks after the transplant, patients will be discharged from the hospital. They will return for follow-up clinic visits weekly and then twice weekly for 3 months. These visits will include a symptom check, physical examination, and blood tests. Blood transfusions will be given if needed. Subsequent visits will be scheduled at 4, 6, 12, 18, 24, 30 and 36 months after the transplant, or more often if required, and then yearly.

OBJECTIVES: I. Determine the safety of total body irradiation and fludarabine followed by allogeneic peripheral blood stem cell or bone marrow transplantation in combination with cyclosporine and mycophenolate mofetil for establishing mixed chimerism in patients with inherited disorders. II. Determine whether this regimen can establish mixed chimerism in these patients. III. Determine whether mixed chimerism is sufficient to reverse disease symptoms in these patients. IV. Determine the safety of donor lymphocyte infusions to eliminate persistent disease in these patients with mixed chimerism.

This study will investigate the safety and effectiveness of a modified stem cell transplant procedure for treating chronic granulomatous disease (CGD) in patients with active infection. CGD is an inherited disorder of neutrophils-a type of infection-fighting white blood cell-that leaves patients vulnerable to life-threatening infections. Transplantation of donated stem cells (cells produced by the bone marrow that mature into the different blood components-white cells, red cells and platelets) can cure CGD. However, this procedure carries a significant risk of death, particularly in patients with active infection, because it requires completely suppressing the immune system with high-dose chemotherapy and radiation. In addition, lymphocytes-another type of infection-fighting white blood cell-from the donor may cause what is called graft vs. host disease (GvHD), in which the donor cells recognize the patient's cells as foreign and mount an immune response to destroy them. To try to reduce these risks, patients in this study will be given low-dose chemotherapy and no radiation, a regimen that is easier for the body to tolerate and involves a shorter period of complete immune suppression. Also, the donor's lymphocytes will be removed from the rest of the stem cells to be transplanted, reducing the risk of GvHD. Patients with CGD between the ages of age 1 and 55 years old who do not have an active infection and who have a family member that is a well matched donor may be eligible for this study. Candidates will have a medical history, physical examination and blood tests, lung and heart function tests, X-rays of the chest and sinuses, and dental and eye examinations. A bone marrow sample may be taken to evaluate disease status. This test, done under a local anesthetic, uses a special needle to draw bone marrow from the hipbone. Stem cells will be collected from both the patient and donor. To do this, the hormone G-CSF will be injected under the skin for several days to increase stem cell production. Then, the stem cells will be collected by apheresis. In this procedure the blood is drawn through a needle placed in one arm, pumped into a machine where the desired cells are separated out and removed, and then the rest of the blood is returned through a needle in the other arm. A large plastic tube (central venous line) is placed into a major vein. It can stay in the body and be used the entire treatment period to deliver the donated stem cells, give chemotherapy or other medications, including antibiotics and blood transfusions, if needed, and withdraw blood samples. Several days before the transplant procedure, patients will start low-dose chemotherapy with cyclophosphamide and fludarabine, two commonly used anti-cancer drugs. They will also be given anti-thymocyte globulin to prevent rejection of the donated cells. When this conditioning therapy is completed, the stem cells will be infused through the central line. Patients will be given cyclosporine by mouth or by vein from 4 days before until 3 months after the stem cell transplant to help prevent rejection. The average hospital stay for stem cell transplant is 30 days. After discharge, patients will return for follow-up clinic visits weekly or twice weekly for 4 months. These visits will include a symptom check, physical examination, and blood tests. Blood transfusions will be given if needed. Subsequent visits will be scheduled at 4, 6, 12, 18, 24, 30 and 36 months after the transplant or more often if required, and then yearly.

This protocol will follow patients who participated in NIAID's study Gene Therapy Approach for Chronic Granulomatous Diseases (95-I-0134). No further gene therapy treatments will be given under this protocol. However, because gene therapy is a new technology and involves a permanent change in the genetic code of some cells, patients who have had this treatment require long-term health monitoring. Participants will be asked to provide updated address and telephone information and the names of two contact persons, such as siblings or friends. Patients will be seen about once a year at the NIH Clinical Center to provide an update on their health status and donate a small blood sample (about 2 teaspoons), which will be frozen and stored. If a patient acquires a serious illness, such as cancer, his or her stored blood will be tested; another of blood or tissue sample may also be requested for further study. If a patient develops a medical problem that is thought possibly to be related to gene therapy, the illness will be investigated. The annual follow-up visits will continue indefinitely or until the patient declines to continue participation. Participants may also agree to store some of their blood future research on chronic granulomatous diseases and other medical conditions. Stored samples may be labeled with a code, such as a number, that only the study team can link with the patient. Any identifying information about the patient will be kept confidential as is permitted by law.

In this study, the investigators test 2 dose levels of thiotepa (5 mg/kg and 10 mg/kg) added to the backbone of targeted reduced dose IV busulfan, fludarabine and rabbit anti-thymocyte globulin (rATG) to determine the minimum effective dose required for reliable engraftment for subjects undergoing hematopoietic stem cell transplantation for non-malignant disease.

HLH, HLH-related disorders, Chronic Granulomatous (CGD), HIGM1, Immune dysregulation, polyendocrinopathy, enteropathy, and X-linked inheritance (IPEX) and severe LAD-I represent primary immune disorders that are typically fatal without Hematopoietic Cell Transplant (HCT). However, transplant is often complicated by inflammation, infection and other co-morbidities. In addition, these disorders have been shown to be cured with partial chimerism, making them an ideal target for the use of reduced intensity approaches, where a portion of patients may not achieve full donor chimerism, but instead achieve stable mixed chimerism. Reduced-intensity conditioning strategies have demonstrated improved survival with decreased Treatment Related Mortality (TRM) in institutional series for patients with HLH (Cooper et al., 2006; Marsh et al., 2010; Marsh et al., 2011). However, graft loss and unstable chimerism remain challenges. An institutional case series from Cincinnati Children's Hospital demonstrated full or high-level chimerism and improved durable engraftment using intermediate (Day -14) timing alemtuzumab (Marsh et al., 2013b). This study aims to test the efficacy of the Intermediate RIC strategy in a prospective multi-center study including HLH as well as other primary immunodeficiencies where allogeneic transplant with RIC has been shown to be feasible and stable chimerism is curative.

"Kineret" (INN: Anakinra) neutralizes the biological activity of interleukin-1α (IL-1α) and interleukin-1β (IL-1β) by the concurrent inhibition of binding to interleukin-1 receptor I (IL-1RI). Interleukin-1 (IL-1) is the main pro-inflammatory cytokine that mediates many cellular responses. Anakinra inhibits the reactions caused by IL-1 in vitro, including the induction of nitric oxide and prostaglandin E2 and / or the formation of collagenase by synovial cells, fibroblasts and chondrocytes. According to published data, patients with the chronic granulomatous disease have an increased secretion of interleukin-1, which contributes to the development of granulomatous inflammation. Blocking interleukin-1 reduces the activity of the main pro-inflammatory complex - the inflammasomes, and also restores the autophagy process impaired in patients with chronic granulomatous disease. In this way, inhibition of the IL-1 receptor prevents the activation of innate immunity cells and prevents the maintenance of pathological pro-inflammatory signaling in conditions of IL-1 overproduction. The efficacy and safety of therapy with the above drug is based on the results of international studies on the using of anakinra in patients with chronic granulomatous disease.

Background: The way the body heals and protects itself from getting sick is called the immune response. Some people with weak immune systems get sick often or get rashes and skin infections. Researchers want to find out how the immune system and skin problems are related so they can help these people. Objective: To learn about how immune response and skin healing are related to each other. Eligibility: People ages 18-65 with hyper IgE syndrome or Job syndrome or people ages 7-65 with chronic granulomatous disease. Healthy volunteers ages 18 65 are also needed. Design: Participants will be screened with: Medical history Physical exam Possible urine tests Participants will have 1 to 3 visits within about a week. Visits will include the following: Participants will have a wells device strapped to the inside of the forearm. It will suction the skin and pull the top layer away to form 8 blisters. The skin over the blisters and the liquid inside will be collected. Participants will have up to 4 skin biopsies. A sharp tool will remove a small plug of skin from the forearm. Participants may have blood and urine tests. The skin on participants skin will be rubbed with a cotton swab. Some participants will have an overnight visit. They will have the blister device placed back on the arm. The wells will be lined up over the blister wounds. The wells will be filled with either saline or the participant s blood serum. The device will be covered and left on the arm for up to 24 hours. Doctors will periodically remove some liquid from the wells.

Immunological profile and Clinical characteristics of children diagnosed with chronic granulomatous disease