View clinical trials related to Anemia, Diamond-Blackfan.
Filter by:Background: A prospective cohort of Inherited Bone Marrow Failure Syndrome (IBMFS) will provide new information regarding cancer rates and types in these disorders. Pathogenic variant(s) in IBMFS genes are relevant to carcinogenesis in sporadic cancers. Patients with IBMFS who develop cancer differ in their genetic and/or environmental features from patients with IBMFS who do not develop cancer. These cancer-prone families are well suited for cancer screening and prevention trials targeting those at increased genetic risk of cancer. Carriers of IBMFS pathogenic variant(s) are at increased risk of cancer. The prototype disorder is Fanconi's Anemia (FA); other IBMFS will also be studied. Objectives: To determine the types and incidence of specific cancers in patients with an IBMFS. To investigate the relevance of IBMFS pathogenic variant(s) in the carcinogenesis pathway of the sporadic counterparts of IBMFS-associated cancers. To identify risk factors for IBMFS-related cancers in addition to the primary germline pathogenic variant(s). To determine the risk of cancer in IBMFS carriers. Eligibility: North American families with a proband with an IBMFS. IBMFS suspected by phenotype, confirmed by pathogenic variant(s) in an IBMFS gene, or by clinical diagnostic test. Fanconi's anemia: birth defects, marrow failure, early onset malignancy; positive chromosome breakage result. Diamond-Blackfan anemia: pure red cell aplasia; elevated red cell adenosine deaminase. Dyskeratosis congenita: dysplastic nails, lacey pigmentation, leukoplakia; marrow failure. Shwachman-Diamond Syndrome: malabsorption; neutropenia. Amegakaryocytic thrombocytopenia: early onset thrombocytopenia. Thrombocytopenia absent radii: absent radii; early onset thrombocytopenia. Severe Congenital Neutropenia: neutropenia, pyogenic infections, bone marrow maturation arrest. Pearson's Syndrome: malabsorption, neutropenia, marrow failure, metabolic acidosis; ringed sideroblasts. Other bone marrow failure syndromes: e.g. Revesz Syndrome, WT, IVIC, radio-ulnar synostosis, ataxia-pancytopenia. First degree relatives of IBMFS-affected subjects as defined here, i.e. siblings (half or full), biologic parents, and children. Grandparents of IBMFS-affected subjects. Patients in the general population with sporadic tumors of the types seen in the IBMFS (head and neck, gastrointestinal, and anogenital cancer), with none of the usual risk factors (e.g. smoking, drinking, HPV). Design: Natural history study, with questionnaires, clinical evaluations, clinical and research laboratory test, review of medical records, cancer surveillance. Primary endpoints are all cancers, solid tumors, and cancers specific to each type of IBMFS. Secondary endpoints are markers of pre-malignant conditions, such as leukoplakia, serum or tissue evidence of carcinogenic viruses, and bone marrow morphologic myelodyplastic syndrome or cytogenetic clones....
This study will provide information needed to develop more effective treatments for patients with Diamond-Blackfan anemia (DBA). Current treatments include steroids, such as prednisone, and blood transfusions. These treatments have potential long-term risk and side effects, including osteoporosis and impaired growth from steroids or iron overload from transfusions. In addition, as patients reach adulthood, they can develop acute leukemia or bone marrow failure. The only cure for DBA is bone marrow transplant, a procedure that itself carries serious risks and is an option for only about 25 percent of patients. DBA is caused by a mutation (error) in a gene that codes for producing red blood cells from stem cells (blood-forming cells produced by the bone marrow). In 5 to 10 years, gene transfer therapy may prove to be an effective treatment for DBA. Before this treatment can be considered, however, more information is needed about DBA patients and how their stem cells function. This study will examine: 1) whether stem cells of patients with DBA respond to G-CSF the same way those of healthy people do. (G-CSF is a drug that causes stem cells to move from the bone marrow to the blood stream, where they can be collected more easily and in larger numbers by a procedure called leukapheresis, described below. If G-CSF does not work well in DBA patients, other collection strategies will have to be explored); and 2) whether the genetic error in DBA can be corrected by gene transfer into patients' stem cells. Patients with Diamond-Blackfan anemia 4 years of age and older who weigh at least 27 pounds and who are dependent on red blood cell transfusions may be eligible for this study. Candidates will have a medical history taken and a physical examination and will be seen by the Clinical Center's Department of Medicine Transfusion for leukapheresis evaluation. They will have a bone marrow aspiration and biopsy to confirm the diagnosis of DBA. For these tests, the hip area is anesthetized and a needle is used to draw bone marrow from the hipbone. If needed, the procedure will be done under sedation. Patients will be given G-CSF by injection under the skin for up to 6 days. Blood and stem cell counts will be measured from a teaspoon of blood drawn each morning. On the morning of the fifth dose, the patient will undergo leukapheresis for collection of stem cells. For this procedure, a large catheter (with a diameter no larger than that of a straw) is placed in an arm vein to allow blood to flow into a cell separator machine. Most children and some adults do not have veins large and strong enough for this tubing, so a large intravenous line called a "central line" is placed into a large vein in the neck or groin. This is done under sedation and with a local anesthetic. While the patient lies on a bed or recliner, whole blood is collected through a catheter in one arm or the central line, the stem cells are separated out by spinning, then the red cells, platelets and plasma are returned through a second catheter in the other arm or a second opening in the central line. The procedure takes about 3 to 5 hours, during which the patient can watch television or videos and have family members at the bedside for company. When the procedure is completed, the patient's participation in the protocol ends. Some of the stem cells collected by leukapheresis will be used for research and some will be frozen and stored for possible future transplantation into the patient, if required.
Participants in this study are suffering from rare and serious blood disorders. In aplastic anemia, the bone marrow stops producing red blood cells, platelets, and white blood cells. In pure red cell aplasia, the bone marrow stops producing red cells, and in amegakaryocytic thrombocytopenic purpura, the bone marrow stops producing platelets. Current treatment approaches for these disorders include bone marrow transplant and/or immunosuppression. However, bone marrow transplant is not always possible, and immunosuppression has serious side effects. This study will investigate whether daclizumab can be used to treat these disorders. Daclizumab is a genetically engineered human antibody that blocks the interleukin-2 receptor on immune cells. It has been used successfully in many transplant patients to reduce the rate of organ rejection. Participants will undergo a complete history and physical examination. A bone marrow aspiration and biopsy will be performed to confirm the type of bone marrow failure. About 5 tablespoons of blood will be drawn for baseline tests and research purposes. Daclizumab will be administered every 2 weeks by vein in a 30-minute infusion. The first dose will be given at NIH and the next four may be given at NIH or by the participant's primary hematologist. The treatment will last 8 weeks. Participants must also see their referring physician or NIH physicians every 2 weeks for blood counts. In the fourth and eighth weeks of the study and at the 3-month follow-up visit, 2 tablespoons of blood will be drawn at NIH. At the 1-month follow-up visit to NIH, 5 tablespoons of blood will be drawn and another bone marrow aspiration and biopsy performed. Risks from bone marrow aspiration and biopsy and blood draws include discomfort. Daclizumab is usually well-tolerated; however, it may weaken immunity against certain bacteria and viruses.
Diamond Blackfan anemia (DBA) is a condition in which the bone marrow is underdeveloped. DBA is considered a congenital disease, meaning patients are born with it. In DBA there is a lack of cells that give rise to red blood cells. The other elements produced in the bone marrow, such as white blood cells and platelets, are normal. Standard treatments used for this disorder such as steroids and bone marrow transplants are associated with failure, relapse, side-effects, increased morbidity, and even death. Two drugs, antithymocyte globulin (ATG) and cyclosporin have been used to treat DBA, but have only provided occasional responses. No study has ever combined these two drugs for the treatment of DBA. This study is designed to explore the combined use of ATG and cyclosporine as a rational approach to the treatment of DBA.