View clinical trials related to Sickle Cell Disease.
Filter by:Hematopoietic stem cell (HSC)-based gene therapies now offer curative potential for patients with sickle cell disease (SCD), with decreased toxicity compared to allogeneic hematopoietic cell transplantation. However, effective HSC-based gene therapy depends on collecting sufficient HSCs to generate the therapeutic product, and currently available mobilization regimens carry unacceptable risk for patients with SCD or do not reliably yield optimal numbers of HSCs for gene therapy. The investigators hypothesize that HSC mobilization with motixafortide (CXCR4i) alone and the combination of motixafortide plus natalizumab (VLA-4i) will be safe and tolerable in SCD patients. In addition, the investigators hypothesize that combined CXCR4 and VLA-4 blockade with motixafortide plus natalizumab will result in a rapid, robust, and synergistic increase in HSC mobilization to peripheral blood (PB) in patients with SCD, when compared to motixafortide alone.
There is limited information on what causes injury to the heart in individuals with Sickle Cell Disease (SCD). Researchers in this study want to see if decreased blood flow to the heart during stress could be causing the heart damage seen in SCD patients. They also want to test people who don't have SCD to see if their hearts react the same way under stress. Primary Objective - To estimate the coronary flow reserve (CFR) (also referred to as myocardial perfusion reserve), as measured by PET stress-rest myocardial perfusion imaging, in SCD patients with and without diastolic dysfunction, and healthy controls. Secondary Objectives - To investigate the relationship between decreased CFR (quantified with PET stress- rest myocardial perfusion imaging) and presence of abnormal diastolic parameters
Sickle cell disease (SCD) is an autosomal recessive red blood cell blood disorder. One especially vital organ affected in SCD is the brain. Individuals with SCD have an increased risk of both overt cerebral infarctions and silent infarctions. The latter are brain lesions without apparent neurological sequelae. Since cortical neurons in the brain lack the ability to regenerate, tissue damage accumulates throughout the already shortened lifespan of individuals with SCD, resulting in far-reaching consequences such as significant cognitive impairment. Currently, only hematological stem cell transplantation can halt the multiorgan tissue damage. However, the criteria to determine the timing of curative therapy do not center the brain, despite that subtle anomalies of this critical organ can have long-lasting consequences. Since it is not yet known whether brain tissue damage precedes, parallels, or lags behind non-brain tissue damage, it is critical to map these effects in youth with SCD. While importantly comparing images with a healthy reference population. Understanding how the brain is affected is critical for clinical decision making, such as timing of potentially curative interventions but also, to prevent long term irreversible brain damage in youth with SCD. In this study, a cohort of 84 SCD patients between the ages of 6 and 18 at baseline, will undergo MR imaging, neurological examination, neuropsychological assessment and blood sampling three times in total, with intervals of two years; results will be innovatively compared with children included in the Generation R population study (±8000 MRIs children and (young)adults) 6-20 years of age). Our hypothesis, based on the inability of the brain to generate new cortical neurons following cell death, is that brain function is impaired earlier than other organ systems and that there is an age-dependent limit in the brain's ability to remodel itself based on neuroplasticity.
Sickle cell anemia (SCA) is a life-threatening hereditary hemoglobinopathy characterized by hemoglobin (Hb) polymerization that affects many people worldwide.Reduced physical capacity is common in people with SCA. Pilates is a form of physical activity that recently used in clinicial practice
This is a single-dose, open-label study in participants with transfusion-dependent β-thalassemia (TDT) or severe sickle cell disease (SCD). The study will evaluate the safety and efficacy of autologous CRISPR-Cas9 modified CD34+ human hematopoietic stem and progenitor cells (hHSPCs) using CTX001.
This study aims to investigate the possible efficacy and safety of L-Arginine in children having Sickle Cell Disease with increased Tricuspid Regurgitant Jet Velocity
Research Type: Clinical Trial Background: People with sickle cell disease (SCD) have many health challenges. Also, they often have trouble sleeping. Acceptance and commitment therapy (ACT) might help people with SCD to improve their sleep problems. Objective: To see how well ACT works in people with SCD and sleep problems and to find out how they feel about it. Eligibility: People between the ages of 18 and 55 with SCD and trouble sleeping. Design: The study is remote. Participants will not have to come to the NIH at all. They will need a device that has Bluetooth and can connect to the internet. Some participants will be in the study for 12 weeks. Others will participate for 20 weeks. Participants will video chat with an ACT coach once a week for 8 weeks. The coach will guide participants through mindfulness exercises and teach ACT ideas. Each session lasts about 45 minutes. Participants will be loaned an actigraph, a device worn on the wrist like a watch that measures and records movement. They will download a free app to upload data from the actigraph for the researchers. Participants will wear the actigraph on their nondominant wrist day and night for either 4 or 6 designated weeks. During these weeks, participants will complete a sleep diary each morning when they wake up. This takes about 2 minutes. Participants will be sent other surveys to complete from home during the study. They will answer questions about their physical and emotional health. These take 20-25 minutes. The last survey will be 4 weeks after participants finish the ACT treatment. They will answer questions about how helpful they thought ACT was and how easy or hard it was to wear the actigraph.
This is an open-label, single-arm, multicenter, Phase 1/2 study evaluating the safety and efficacy of the administration of autologous base edited CD34+ HSPCs (BEAM-101) in patients with severe SCD
The proposed study is a Phase 1/2 multi-center study evaluating the safety and efficacy of erythropoietin (EPO) in combination with hydroxyurea in the treatment of chronic anemia in patients with sickle cell disease (SCD).
The overall goal of this feasibility study is to establish a standard of care stroke prevention program for children with sickle cell anemia in a community hospital by task shifting stroke detection and transcranial Doppler ultrasound screening to nurses. In Nigeria, approximately 150,000 children with sickle cell anemia (SCA) are born annually, accounting for more than half of the total births with SCA worldwide. In comparison, only 1,700 children with SCA are born in the United States annually. An estimated 11% of unscreened and untreated children at increase of strokes with SCA will have at least one stroke by 17 years of age. In high-income countries, evidence-based practices (EBP) for primary stroke prevention in children with SCA involves screening for abnormal transcranial Doppler ultrasound (TCD) velocity (>200cm/s) coupled with regular blood transfusion therapy for at least one year followed by treatment with hydroxyurea is considered standard care. This strategy decreases the risk of stroke by 92%. Due to safety and availability, regular blood transfusion is not a viable option for primary stroke prevention in most low-income settings, including Nigeria, where ~50% of the 300,000 children with SCA are born. Among each birth cohort, 15,000 children will have stroke annually in Nigeria. The American Society of Hematology (ASH) Central Nervous System Guidelines recommends moderate dose hydroxyurea (20mg/kg) to children with SCA with abnormal TCD measurements, living in resource-constrained settings where regular blood transfusions are not readily available. Our team has demonstrated in a previous trial the feasibility of primary stroke prevention with hydroxyurea in Kano, Nigeria. In 2016, as part of capacity building objective of Stroke Prevention Trial in Nigeria (1R01NS094041-SPRING) at Barau Dikko Teaching Hospital in Kaduna, TCD screening was adopted as standard of care. Before the trial, no TCD screening was done at our trial site in Kaduna. Now, as standard care, physicians at the teaching hospital do TCD screening, however, only 5.4% (1,101/20,040) of the eligible children with SCA living in Kaduna, Nigeria were reached. Clearly, for there to be an appreciable impact on decreasing the stroke rates in children with SCA living in Nigeria and elsewhere, applying the ASH guidelines and a better implementation strategy to increase the TCD reach (proportion of children eligible for TCD screening that are screened) is necessary. Therefore, objective of this physician-mentored application is to conduct an Effectiveness-Implementation Feasibility Trial is to test the test the hypothesis that the task-shifted site for primary stroke prevention team in a community hospital will have a non-inferior effectiveness in identifying children with abnormal TCD measurements when compared to primary stroke prevention team in a teaching hospital in Kaduna, Nigeria. the investigators will conduct i) a needs assessment at the community hospital to identify barriers and facilitators to the intervention, ii) Build capacity for stroke detection and TCD screening and iii) Compare the effectiveness of a physician-based stroke prevention program in a teaching hospital to a task-shifted stroke prevention in a community hospital.