View clinical trials related to Anemia, Sickle Cell.
Filter by:The purpose of this study was to evaluate the safety and tolerability, and the pharmacokinetic and biologic activity of INCB059872 in participants with sickle cell disease.
This study is designed to estimate the efficacy and toxicity of familial HLA mismatched bone marrow transplants in patients with non-malignant disease who are less than 21 years of age and could benefit from the procedure.
The Novel use Of Hydroxyurea in an African Region with Malaria (NOHARM) study is the first placebo-controlled randomized clinical trial of hydroxyurea treatment in a malaria endemic region. NOHARM has now achieved full enrollment; all children have completed the blinded portion of the protocol and are in the open-label study treatment portion. This extension study of maximum tolerated dose (MTD), addresses the next critical set of questions about the optimal dosing and monitoring of hydroxyurea treatment for children with SCA in low-resource settings. By providing guidance about optimal hydroxyurea treatment, the NOHARM MTD Study will directly inform policies that can transform the health of African children living with SCA.
To evaluate the relative bioavailability of ticagrelor for the different formulations. A randomized cross-over design has been chosen to minimize the effects of between-subject variability and any period effects on the overall results.
The study is a Phase II clinical trial. Patients will receive intensity modulated total body irradiation (TBI) at a dose of 3 Gy with standard fludarabine/ i.v. cyclophosphamide conditioning prior to human leukocyte antigen (HLA)-haploidentical hematopoietic stem cell transplant (HSCT). The primary objective of the study is to determine the engraftment at Day +60 following HLA-haploidentical hematopoietic stem cell transplant protocol using immunosuppressive agents and low-dose total body irradiation (TBI) for conditioning and post-transplant cyclophosphamide in patients with sickle cell disease.
The main objective of this study is to evaluate at the national level (France) - the early healthcare practices for children with sickle cell disease screened at birth, - the adequacy of theses practices with the national recommendations, - their variability over time and according the characteristics of treatment centers. Will be studied in particular the diffusion of the latest preventive measures (practice of trans-cranial Doppler and pneumococcal conjugate vaccine) and their link with the residual risks of death, stroke and invasive pneumococcal infections. The study includes all patients born in France between 01/01/2006 and 31/12/2010. Events are recorded and analysed only during the first 5 years of life.
The CADRE study is a multinational observational cohort of patients with sickle-cell disease (SCD) in five west and central sub-Saharan African countries. The aim of this project is to describe the incidence and assess the predictive factors of SCD-related micro- and macro-vascular complications in sub-Saharan Africa.
Sickle cell disease (SCD) is an autosomal recessive disorder resulting from a substitution in the β chain of hemoglobin (Hb) which causes hemoglobin S to polymerize when deoxygenated. SCD patients present immune abnormalities that have always been attributed to functional asplenia. It it is now being recognized that patients with SCD have a pro-inflammatory condition with altered immune system activation contributing to the pathology of SCD. Increased levels of neutrophils, monocytes or cytokines have been reported in SCD patients. SCD is associated with many acute and chronic complications requiring immediate support. Actual strongly recommended therapies include chronic blood transfusions (CT) and hydroxyurea (HU). In addition, episodic transfusions are recommended and commonly used to manage many acute SCD complications.There is strong evidence to support the use of HU in adults with 3 or more severe vaso-occlusive crises during any 12-month period, with SCD pain or chronic anemia, or with severe or recurrent episodes of acute chest syndrome. HU use is now also common in children with SCD. Some patients receive chronic monthly RBC transfusion with the objective to reduce the proportion of HbS to < 30 %. Long-term RBC transfusions prevent and treat complications of SCD decreasing the risk of stroke and the incidence of acute chest syndrome (ACS). Therapeutic complications, such as alloimmunization against RBC in 20-50% of patients or hematopoietic stem cell transplantation (HSCT) graft rejection, constitute an immune-based clinical issue in SCD. Poorly understood RBC alloimmunization is responsible for serious hemolytic transfusion reaction associated with severe mortality and morbidity underlying the need for a better understanding of the immunology of SCD to improve SCD transfusion support/outcome. Little evidence exists about HU effects on immune functions in SCD. HU treatment doesn't appear to have deleterious effects on immune function and appears to decrease the abnormally elevated number of total WBC and lymphocytes, while CT does not. Patients with SCD are at higher risk of infections and prophylactic vaccination is strongly recommended. Recent data suggest that vaccinal response to pneumococcal antigens in SCD patients is identical to healthy control while controversy concern the stability of the immune protection after vaccination of SCD patient. Antibody levels declined over the year and the need for more frequent vaccination in SCD patient should be investigated. Currently, there is no evidence whether HU may interfere with pneumococcal immune response. Purohit showed that immune response to inactivated influenza A (H1N1) virus vaccine was altered in patient with SCD receiving CT but little is known on immune response to vaccination in patients with SCD receiving HU. Recent data suggest that not only inflammatory status but also humoral immune response to antigens in SCD patients may differ according to treatment. Yazdanbakhsh reported an imbalance between regulatory T cell (Treg) and effector T cell (Teff) in alloimmunized SCD patients with as consequence an increase in antibody production. In a model proposed by the authors, the balance between Treg and Teff is dictated by the monocyte control of cytokines expression. Altered activity of monocyte heme oxidase-1 (HO-1) would be responsible of a decrease in IL-12 and an increase in IL-10 cytokines secretion impacting the Treg/Teff cells ratio and promoting antibody production by B cells. The objectives of the project are to assess whether different humoral immune responses to vaccines or to erythrocyte alloantigens are related to the type of treatment administered to patients with SCD. We also aim to study if these differences might be related to different expressions of HO-1 by monocytes.
Patients with sickle cell disease may be at risk for acute kidney injury (AKI)during sickle cell crisis (pain or acute chest syndrome). This study will evaluate the role of hemolysis during SCD crisis on the development of AKI and the role for monitoring urine biomarkers during an admission for crisis and during well clinic follow-up.
Background: Peripheral blood stem cell transplantation procedures are used for people with sickle cell disease. Researchers want to improve the success and reduce the complications for these procedures. This might allow more people to have a transplant. Objective: To see if a new transplant regime is effective, safe and well tolerated in people with sickle cell disease. Eligibility: Adults at least 18 years old with sickle cell disease and certain complications. A relative who is a half tissue match. Design: Participants will be screened with medical history, physical exam, and blood tests. Recipients will also have: - Heart, lung, and mental health tests - Chest x-rays - Bone marrow taken from the pelvic bone - Eyes and teeth checked Recipients will have a large central line inserted into a vein for up to 6 months. Donors will have their veins tested and have an IV inserted for 1 day or on rare occasions 2 days. Donors will get a drug to activate bone marrow. It will be injected for about 6 days. Donors will have at least 1 five-hour procedure where bone marrow stem cells will be collected. Blood will be taken from a vein in one arm or in rare cases from a groin vein and put through a machine. Some blood will be saved and the rest will be returned. Stem cells will be taken from the saved blood in a lab and frozen until ready to give to the recipient. Recipients will have: - Stems cells collected and frozen - Hygiene lessons - Bone density scans - Low-dose radiation - Drugs for their immune system - Donor cells infused through their central line - Transfusions After about 30 days, recipients will leave the hospital. They must stay near NIH for 3 months after the transplant and have frequent visits. After returning home, they will have 8 visits over 5 years, then be contacted yearly. ...