View clinical trials related to Anemia, Sickle Cell.
Filter by:This is a pilot study, single-blind, randomized, multicenter, therapeutic clinical trial designed to evaluate the feasibility of enrolling infants and toddlers (9 months to 36 months) with sickle cell anemia (SCA; HbSS or HbSβ^0thalassemia), regardless of disease severity, to a therapeutic trial. A prior clinical trial at St. Jude Children's Research Hospital (SJCRH) (BABYHUG, NCT01783990) demonstrated that a fixed dose (20 mg/kg/day) of hydroxyurea was safe and effective in decreasing SCA-related complications in very young children (9-18 months), and largely due to these findings, hydroxyurea is recommended to be offered to all children (≥9 months old) with SCA, independent of disease severity. Nevertheless, children in the treatment arm of BABYHUG continued to experience vaso-occlusive symptoms and to incur organ damage. In clinical trials of older children with SCA, intensification of hydroxyurea to a maximum tolerated dosage (MTD), defined by mild to moderate myelosuppression, may be associated with improved laboratory parameters compared to fixed lower-dosing, but the clinical benefits gained from dose intensification have not been described. Therefore, in this trial, children in the standard treatment arm will receive a fixed dose of hydroxyurea (20 mg/kg/day), and participants in the experimental arm will receive hydroxyurea intensified to MTD, defined by a goal absolute neutrophil count (ANC) of 1500-3000 cells/µL. This trial aims to establish a multicenter infrastructure that will identify, enroll and randomize very young children (9-36 months) to receive fixed dose versus intensified-dose hydroxyurea in a single blinded manner, and to obtain prospective pilot data comparing the clinical and laboratory outcomes between the treatment arms to facilitate design of a definitive phase III trial.
This Phase 1b study in adults with sickle cell disease (SCD) in steady-state (non-acutely ill) aims to evaluate safety and toxicity of NVX-508 in a multi-dosing paradigm as well as to determine the maximum tolerated dose (MTD) in this population. The information gained from this study will be used in making decisions about the appropriate dose(s) and dosing schedule in future multicenter studies of the efficacy of NVX-508 in the treatment of vaso-occlusive episodes (VOE).
There are approximately 90,000 individuals in the United States with sickle cell disease (SCD). Studies have shown that up to 98 percent of patients with Sickle Cell Disease have a vitamin D deficiency, defined as a 25-hydroxyvitamin D level (25(OH)D) less than or equal to 20 ng/mL. As a result, of low bone density, patients may develop osteonecrosis, chronic inflammation and related pain. This study will be coordinated with patients' regularly scheduled visits for medical care and will require patients to submit blood sample at the start of the study and at 3, 6, 9, AND 12 month visits. Patients will also be scheduled for a bone density measurement (DXA scan) at the start of the study and after 12 months of supplementation to assess for any bone re-mineralization. Thus, the main purpose of this study is to find the amount of nutritional vitamin D that needs to be taken by patients with sickle cell disease in order to correct vitamin D deficiency. The study will also test whether vitamin D supplements improve bone health and reduce inflammation.
Patients with sickle cell disease often develop painful crisis without any obvious reasons. Some patients are more likely to develop this complication than others. It is now clear that painful crisis only occurs when sickled red blood cells stick to white blood cells that have been activated, usually by inflammation or infections. A recent study in mice with sickle cell disease showed that the use of long term antibiotics could reduce the number of activated white blood cells and reduce death of the mice during sickle cell crisis. The investigators believe that sickle cell patients who develop frequent painful crisis may have a different pattern of bacteria in their intestine when compared to those whose painful crisis occurs infrequently. In this study, the investigators propose to study sickle cell subject's blood to determine how many activated white blood cells he/she have. The investigators will also examine his/her stool to compare the bacteria in his/her stool to those other sickle cell patients. The investigators will then investigate whether or not the results from the blood and stool tests correlate with how frequently the patient develops painful crisis. The investigators will examine the patients' medical records to find out how many times they have been admitted to the hospital for sickle cell crisis in the last 12 months. The investigators will also obtain information on the following: their age, their sex, whether they are taking hydroxyurea or Penicillin, when they last had a transfusion or exchange transfusion therapy and painful crisis needing hospital admission, whether they have received any antibiotics (other than Penicillin) in the last 4 weeks, and whether they are experiencing a painful crisis at the time that they enter the study. The investigators will obtain, from their previous laboratory results, their levels of hemoglobin F and markers of inflammation. The investigators will check their hemoglobin F level if they have not already had this tested. The investigators expect to enroll 50 subjects into this study at Rhode Island Hospital/Hasbro Children's Hospital.
The overall goal of the project is to reduce pain-related, 30-day readmission rates for sickle cell disease (SCD) patients. The investigators want to see if a mobile phone application (app) can help decrease the need for repeat admission to the hospital because of sickle cell pain.
The purpose of this Phase 1a, first in human, randomized, double-blind, placebo-controlled study is to evaluate the safety, tolerability, PK and PD profile of the orally administered IMR-687 in healthy adult subjects.
To examine the pharmacokinetics and distribution of oral hydroxyurea when administered as a single dose to lactating women
Sickle 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.
The purpose of this study is to test the effects of a laboratory-based hypnosis session compared to an attention control condition on peripheral blood flow, autonomic stress responses, and acute pain responses in adolescents (ages 12-21) with sickle cell disease, and examine how perceived disease-related stigma may affect these responses.
The purpose of this study is to determine whether metformin is effective in the treatment for sickle cell anemia (SCA).