Active clinical trials for "Severe Combined Immunodeficiency"

Background: Severe combined immune deficiency (SCID) is a group of conditions where the immune system does not work properly. The only cure for most SCIDs is a stem cell transplant (getting cells from a donor). These transplants can have serious complications. Before the transplant, people often get high doses of drugs and radiation to prepare the body to accept the cells from the donor. Researchers want to see if low doses of drugs alone without radiation work just as well as low doses of drugs with radiation for SCID patients getting stem cell transplants. Objective: To test a set of drugs with or without radiation given before a stem cell transplant. Eligibility: People ages 3-40 who have SCID and who have a stem cell donor - either related or unrelated. Design: Participants will be admitted to the hospital 10 days before transplant. They will undergo: medical history medication review physical exam blood and urine tests (may include a 24-hour urine collection) heart, lung, and breathing tests imaging scans bone marrow sample nutrition assessment dental exam eye exam meeting with a social worker. Participants will get a plastic port called a central line. It is a hollow tube that is placed in the upper chest. It will be used to give medicines and take blood. All participants will take chemotherapy drugs. Some will get radiation. Participants will have a stem cell transplant. They will get the cells as an infusion through their central line. They will stay in the hospital for 30 days after transplant. Participants must stay within 1 hour of NIH for 3 months after transplant. During this time, they will have follow-up visits at NIH at least once a week. Then they will have follow-up visits once or twice a year for 5-6 years.

Allogeneic haematopoietic stem cell transplantation (aHSCT) is the only curative treatment for many paediatric and young adult haematological pathologies (acute leukaemia, myelodysplastic syndromes haemoglobinopathies, bone narrow aplasia, severe combined immunodeficiency). Despite the major therapeutic progress made over the last 50 years, particularly in terms of supportive care, post-transplant morbidity and mortality remain high. Infectious complications, whose incidence varies between 30 and 60%, are the first cause of mortality in the immediate post-transplant period. In order to protect the patient from the occurence of severe infectious episodes, aHSCT must be performed in a highly protected environment (positive pressure chambers). This has consequences for the experience and impact of hospitalization on the patient and family. This is particularly true in pediatrics, with children, adolescents or young adults, where it is not only the patient's quality of life that is at stake, but also his emotional and psychomotor development. In this specific population, prolonged hospitalization (at least 6 weeks) in a sterile room will be responsible for physical deconditioning accompanied by a decrease in muscle mass. Patients often experience an deteriorated quality of life. Today, the benefits of physical activity (PA) during and after cancer treatment have been widely demonstrated. The objective of the study is to assess the feasibility of an adapted physical activity program during the isolation phase for achieving aHSCT in children, adolescents and young adults. This is a prospective, interventional, monocentric cohort study conducted at the institute of Paediatric Haematology and Oncology in Lyon. The intervention will take place during the isolation phase and will be based on an adapted physical activity (APA) program defined at inclusion, integrating supervised sessions with an APA teacher, as well as autonomous sessions performed by means of a connected bike in the sterile room. The program will be individualized according to age, aerobic capacities, and PA preferences. Sessions will also be tailored to the biological, psychological, and social parameters of patients. The total duration of the intervention is 3 months. To date, no PA studies have been performed in patients under 21 years old requiring aHSCT during the sterile isolation phase. EVAADE will therefore be the first study in this population to offer an innovative procedure with a connected device.

Infants with severe combined immunodeficiency (SCID) have a profound decrease in number and function of immune cells, and therefore remain highly vulnerable to infection. If not corrected this often leads to death. Hematopoietic cell transplantation (HCT) from matched sibling donor is the standard treatment for these patients, unfortunately though; most SCID patients lack a sibling donor. Building upon experience and existing data, the investigators are proposing a trial the goals of which are: to provide a conditioning regimen that is well tolerated, and provision of immune cells that altogether should establish rapid immune recovery providing protection from life threatening infections without increasing the risk of dangerous Graft-Versus-Host-Disease. Primary Objectives To evaluate the safety of a TCRα/β/CD19-depleted graft with CD45RA-depleted DLI in infants with SCID To estimate overall survival at 1 year post transplantation Exploratory Objectives To evaluate the significant donor T cell reconstitution of a TCRα/β/CD19 depleted graft with CD45RA-depleted DLI at 1 year (+/-2 weeks). To evaluate engraftment at day 30, 100, month 6, and years 1 to 10 post HCT. To evaluate B cell reconstitution at years 1 to 10 post HCT. To evaluate biomarkers of immune reconstitution at day 30, 60 100, month 6 and years 1 to 10; e.g. immunophenotype (including epigenetic profiling) of T, B, and NK cells, and assays to determine their function. To evaluate clinical outcomes, post HCT. To define the incidence and severity of acute (at day 100, month 6), and chronic (month 6, 12, 24) GVHD following HCT.

This is a phase I/II open label multi-center study in which patients will receive low dose targeted busulfan followed by infusion of autologous CD34+ selected bone marrow or mobilized peripheral blood cells transduced with the G2SCID vector. Subjects will be enrolled over 3 years and be followed for 2 years post-infusion on this protocol, then followed long-term on a separate long-term follow-up protocol. Enrollment of subjects will be agreed upon by representatives of both sites. Data will be collected uniformly from both sites through an electronic capture system and key laboratory studies will be centralized. Harvest, cellular manufacturing and infusion will occur at each site using the same SOPs. Key aspects of cellular product characterization will be centralized

This is a study of stem cell transplantation with TBX-1400 in pediatric subjects with severe combined immunodeficiency (SCID). The donor cells are exposed to a protein that has been shown in the laboratory to improve the ability of the donor cells to make blood and immune cells after transplant. Exposure of the donor cells to this protein does not modify the genes in the cells in any way. This study has two goals. The first goal is to find out if transplant with TBX-1400 is safe. The second goal is to find out what effects TBX-1400 stem cells have on time to engraftment in pediatric subjects with SCID. The study hypothesis is that TBX-1400 cells will shorten the time to immune reconstitution after transplant.

Newborn screening (NBS) is a global initiative of systematic testing at birth to identify babies with pre-defined severe but treatable conditions. With a simple blood test, rare genetic conditions can be easily detected, and the early start of transformative treatment will help avoid severe disabilities and increase the quality of life. Baby Detect Project is an innovative NBS program using a panel of target sequencing that aims to identify 126 treatable severe early onset genetic diseases at birth caused by 361 genes. The list of diseases has been established in close collaboration with the Paediatricians of the University Hospital in Liege. The investigators use dedicated dried blood spots collected between the first day and 28 days of life of babies, after a consent sign by parents.

The purpose of this study is to evaluate the Safety and Efficacy of Gene Therapy of the severe combined immunodeficiency (SCID) caused by mutations in the human DCLRE1C gene (Artemis) by transplantation of a single dose of autologous CD34+ cells transduced ex vivo with the G2ARTE lentiviral vector expressing the DCLRE1C cDNA.

This protocol (GENEFU) provides a mechanism for the 15-year followup period that the FDA requires for all participants in gene transfer protocols and assures that adequate followup can be maintained for a wide variety of participants on different individual gene therapy protocols at St. Jude Children's Research Hospital. GENEFU serves as an umbrella protocol for long-term follow-up (LTFU) for recipients of gene therapy/gene marked (GT/GM) products at St. Jude Children's Research Hospital. The FDA has recommended methods to assess the risk of delayed adverse events after GT/GM and has provided specific requirements regarding the duration and design of LTFU observations. This protocol is intended to provide LTFU in accordance with the FDA guidelines for those who received a GT/GM product as part of a St. Jude-sponsored clinical trial or compassionate use treatment plan. The protocol calls for a physical examination or general health evaluation and collection of required blood samples annually for up to 15 years after the last receipt of a GT/GM product. Goals will be to obtain clinical histories in order to detect late clinical outcomes suggestive of retroviral or lentiviral disease, including but not limited to cancer/second malignancies, neurologic disorders, autoimmune disorders, and hematologic disorders. Blood samples will be archived and tested when clinically or scientifically indicated, as in the event of development of a second malignancy. This prospective cohort study will utilize descriptive statistics in the analysis of long-term late effects outcomes. It offers a uniform approach to long-term safety monitoring in research participants who have received a gene-transduced product as part of St. Jude-sponsored GT or GM protocols and compassionate use treatment plans.

This project will evaluate the impact of including Severe Combined Immunodeficiency into the newborn bloodspot screening panel. It will recruit parents and health professionals primarily from the sites where this new form of screening is being trialled well as additional sites where clinicians will be involved in the care of these babies and comparator groups are needed. The proposed work will consist of two work packages. The first, a mixed-methods study conducted with families from the point of screening information being returned through to the child's fifth birthday. The second, a qualitative interview study conducted with health professionals during the clinical evaluation phase of the national pilot programme.

This study will evaluate patients with abnormal immune function that results in recurrent or unusual infections or chronic inflammation. This may include inherited conditions, such as X-linked severe combined immunodeficiency (XSCID), chronic granulomatous disease (CGD), and leukocyte adhesion deficiency (LAD), or conditions resulting from outside factors, such as graft-versus-host disease (GVHD). The information from this study will be used to establish the pattern and pace of change of the disease and to help develop new treatments. The period of observation and study following enrollment in this study may be for up to one year. In addition these studies may provide the medical information needed to determine eligibility for enrollment in other clinical study protocols and more prolonged follow up. Patients of any age with abnormal immune function who have recurrent or unusual infections, whose blood tests show evidence of immune dysfunction, or who have GVHD, XSCID, CGD or LAD may be eligible for this study. Patients' parents, siblings, grandparents, children, aunts, uncles and first cousins of any age also may be included. Healthy normal volunteers between 18 and 85 years of age are recruited as controls. Normal volunteers undergo a physical examination and provide blood, saliva, and urine samples for immune function studies. Patients' family members provide a medical history, have a physical examination, and give blood and urine samples, and possibly a saliva sample. The samples are used for genetic and routine laboratory studies. Investigators may request tissue samples, such as biopsy specimens, previously removed for medical reasons to be sent to NIH for study. Patients undergo the following tests and procedures: Medical history and physical examination. Blood and urine tests, including analysis for genes involved in immune disorders. Buccal smear (in some patients) for genetic studies. This involves scraping the lining of the mouth near the cheek. Specialized tests to evaluate specific conditions in patients who have an immune disorder that might affect lung function, gum infections or eye problems. These may include chest x-ray, CT scan, breathing function test, dental, eye, and hearing examinations. Follow-up visits of patients with immune problems may occur at 6 months and at one year after the first visit (or more frequently if medically required) to include: Medical history update Physical examination Follow-up on abnormal test results and medical treatments initiated at NIH Collection of blood, saliva, urine, or wound drainage samples for repeat immune function studies Tissue study of specimens removed for medical reasons at other institutions besides NIH