SCD-Haplo: Phase II Study of HLA-Haploidentical SCT for Aggressive SCD
Sickle Cell DiseaseRelated donor stem cell transplantation using the alemtuzumab/ TBI platform has been shown to be a safe strategy to cure severe sickle cell disease. However, due to a lack of suitable donors, many patients cannot benefit from this strategy. Alternative donor sources are desperately needed to fill this gap. Nearly all patients will have a haploidentical family member who would be able to donate. The use of post transplantation cyclophosphamide has greatly improved the outcome of haploidentical stem cell transplantation. The investigators propose to combine this with alemtuzumab/TBI conditioning.
Nitrous Oxide Analgesia Vaso-occlusive Crisis
Sickle Cell DiseaseVaso-occlusive CrisisPatients who have sickle cell VOC are usually treated with opioids, such as morphine. However, this current way of treating them has not improved the health, medical outcomes, or rates of hospitalizations. In addition, since VOC can happen very frequently over a long period of time, giving opioids over and over again can cause both short-term and long-term problems. Nitrous oxide (N2O) is a way of treating pain that may provide a better alternative to repeatedly giving opioids over long periods of time. N2O has been shown to provide up to 3 hours of pain relief in inpatient patients with VOC whose pain did not improve with morphine infusions, and is used extensively in France, where almost half of 85 pediatric emergency departments use nitrous oxide to treat children with VOC whose pain did not get better with standard treatment with morphine. However, pain relief which N2O provides in the acute setting has not been well described. Therefore, the purpose of our study is to describe how well N2O can relieve the pain in patients with SCD who present to the emergency department and are experiencing a VOC.
Bone Marrow Transplant From Donor Using Less Toxic Conditioning for Patient With High Risk Hemoglobinopathies...
Sickle Cell AnemiaHemoglobinopathy1 moreThe major goal of this study is to determine the risks and benefits of stem cell transplants in combination with a newer, less toxic conditioning chemotherapy treatment in patients with severe sickle cell disease (SCD) or sickle hemoglobin variants (hemoglobin SC or hemoglobin SB0/+), or homozygous b0/+ thalassemia or severe B0/+ thalassemia variants. Participation in this project will be for one year, with follow up evaluations done every 6 months thereafter for 10 years or until participants are 18 years old.
Feasibility and Preliminary Efficacy of Acceptance and Commitment Therapy (ACT) for Sleep Disturbances...
Sickle Cell DiseaseSickle Cell Anemia5 moreResearch 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.
Assessing Physical Function in Sickle Cell Patients Taking Voxelotor
Sickle Cell DiseaseVoxelotor is a novel hemoglobin polymerization inhibitor which has been demonstrated to reduce hemolysis and improve hemoglobin levels. There have been numerous studies examining the clinical impact of voxelotor in sickle cell disease (SCD) patients, but there are few published reports on the effects of treatment on physical function in patients with SCD. The hypothesis to be tested is that anemic SCD patients will have improvements in performance after 6 months of voxelotor treatment.
Evaluation of Repeat Administration of Purified Poloxamer 188
Sickle Cell DiseaseThe purpose of this study is to evaluate the safety of repeat administration of MST-188 during vaso-occlusive crisis of sickle cell disease. Additionally, this study will evaluate the development of acute chest syndrome during VOC and re-hospitalization for recurrence of VOC.
HSCT For Patients With High Risk Hemoglobinopathies Using Reduced Intensity
Sickle Cell DiseaseBeta Thalassemia-MajorThis study will evaluate the use of reduced intensity conditioning regimen in patients with high risk hemoglobinopathy Sickle Cell and B-Thalassemia Major in combination with standard immunosuppressive medications, followed by a routine stem cell transplant in order to assess whether or not it is as effective as myeloablative high dose chemotherapy and transplant.
A Multi-Center Study of Riociguat in Patients With Sickle Cell Diseases
Sickle Cell DiseaseThe proposed study is a Phase 2 multi-center, randomized, double-blind, placebo-controlled, parallel groups study aimed to evaluate the safety, tolerability and the efficacy of riociguat compared with placebo in patients with sickle cell disease (SCD).
Pilot and Feasibility Trial of Plerixafor for Hematopoietic Stem Cell (HSC) Mobilization in Patients...
Sickle Cell Disease Without CrisisSickle cell disease (SCD) is one of the most common genetic diseases in the world. In North America, an estimated 2600 babies are born with SCD each year1, and approximately 70,000 to 100,000 individuals of all ages are affected in the United States2. The clinical manifestations of SCD include acute events, such as recurrent debilitating painful crises, as well as life-threatening pulmonary, cardiovascular, renal, and neurologic complications. The only established curative treatment for SCD patients is allogeneic hematopoietic stem cell transplant (HSCT). Unfortunately, access to this intervention is limited by availability of suitable matched donors, and HSCT is associated with significant morbidity and mortality. For patients who cannot undergo HSCT, treatment of SCD has been limited to one FDA-approved medication, hydroxyurea, and supportive symptomatic care. After decades with very few novel therapeutic options for SCD patients, autologous cell-based genetic therapies, including lentiviral-based gene therapy as well as gene editing, now offer the possibility of innovative curative approaches for patients lacking a matched donor for hematopoietic stem cell transplantation. Gene therapy for sickle cell disease is increasingly promising, and there are currently open clinical trials at several centers that employ a gene addition strategy. Options for autologous HSC collection include bone marrow harvest or peripheral blood HSC mobilization. Bone marrow (BM) harvest is an invasive procedure requiring anesthesia, which is associated with sickle cell-related morbidities, and may not achieve goal CD34+ cell dose, necessitating repeated procedures scheduled over multiple months. In most gene therapy trials, HSCs are obtained through peripheral collection after mobilization with granulocyte colony-stimulating factor (G-CSF) followed by peripheral blood (PB) apheresis. However, this approach is contraindicated in SCD because G-CSF has been reported to cause severe adverse effects in sickle cell patients. Even with doses sometimes smaller than standard, G-CSF has been shown to result in vaso-occlusive crises, severe acute chest syndrome, and in one report, massive splenomegaly and death. Alternative options for mobilization are needed. Plerixafor has been compared to G-CSF in a sickle cell mouse model, and results showed effective mobilization of HSC subsets, without neutrophil or endothelial activation, and with lower total WBC and neutrophil counts compared to G-CSF-treated mice. Plerixafor use has not yet been documented in sickle cell patients. One other trial is currently open to test plerixafor in SCD patients (NCT02193191) but no results have yet been reported. Based on pre-clinical data, the mechanism of action of plerixafor, as well strategies the investigator will employ to mitigate risk, the investigator anticipates that it will be well-tolerated in the SCD patient population.
A Study of the Effect of IW-1701 (Olinciguat), a Stimulator of Soluble Guanylate Cyclase (sGC),...
Sickle Cell DiseaseThe primary objective of the 1701-202 STRONG SCD study is to evaluate the safety and tolerability of different dose levels of IW-1701 compared with placebo when administered daily for approximately 12 weeks to patients with stable SCD. Exploratory objectives include evaluation of pharmacokinetic (PK) as well as evaluation of the effect of IW-1701 on symptoms of SCD, health-related quality of life, and biomarkers of pharmacodynamic (PD) activity.