59 Clinical Trials for Various Conditions
The primary objective of this study is to better understand factors contributing to variations in hydroxyurea (HU) adherence behavior in adolescents and young adults (AYA) with sickle cell disease (SCD). To meet this objective, the researchers will conduct a prospective cohort study to determine the longitudinal relationship between HU adherence and health-related quality of life (HRQOL) overtime among AYA with SCD. The long-term goal of this research is to promote medication adherence behavior and improve health outcomes in AYA with SCD.
The primary objective of this study is to evaluate a potential behavioral intervention (MED-Go app). To meet this objective, the researchers will conduct a pilot randomized controlled trial to test the feasibility and acceptability of MED-Go app in adolescents and young adults (AYA) with sickle cell disease (SCD). The long-term goal of this research is to promote medication adherence behavior and improve health outcomes in AYA with SCD.
The overarching goal of this proposal is to identify modifiable behavioral strategies based on patient-reported outcomes (PROs) and health-related quality of life (HRQOL) that will improve hydroxyurea (HU) adherence among adolescents and young adults with sickle cell disease (SCD). In this proposed study, we intend to test the functionality of a PROs-toolbox feature, which will be integrated into our existing smartphone application platform (SCD-app), over a 24-week period in a cohort of SCD patients and their caregivers.
This project addresses three important research questions. First, adolescents and young adults (AYA) with sickle cell disease (SCD) and their parents/caregivers will be engaged to inform the (1) domains of health-related quality of life (HRQOL) most important to them, (2) frequency at which they are willing to complete them, and (3) other procedures related to the use, uptake and effect of the HU-Go app as a tool to improve hydroxyurea (HU) adherence. Second, this study seeks to utilize novel modern mobile technology using a multi-functional personalized platform to improve adherence to HU and measure HRQOL in youth with SCD, using NIH-endorsed PROMIS® measures, based on a conceptual model with predefined behavioral targets and mediators. Third, we plan to assess HRQOL changes and identify modifiable behavioral strategies that could serve as surrogates or predictors for HU adherence. This real-time feedback might empower self-directed changes in behavior that could improve adherence to HU.
This is a clinical research trial in which a novel preparatory regimen was developed for bone marrow transplant (BMT) which eliminates the primary obstacle to transplant, the lack of a matched sibling donor. It is believed this regimen is sufficiently efficacious and sufficiently gentle to apply to patients with sickle cell anemia and related disorders. It is proposed to characterize the efficacy and toxicity of this regimen in high risk patients with sickle cell anemia using criteria for patient selection that have been accepted in prior BMT trials in patients with sickle cell disease, specifically only the subset of patients whose prior clinical behavior indicates that they are at high risk for serious morbidity and early mortality. In addition, it is proposed to characterize the pathophysiology of a consistent febrile response seen in the haploidentical BMT regimen the investigators have developed at Thomas Jefferson University (TJU). The primary goal of this study is to determine the response rate to a reduced intensity conditioning regimen which consists of fludarabine, cytarabine, low dose total body irradiation and cyclophosphamide in patients with severe sickle cell anemia.
The purpose of this study is to determine if treatment with reduced-dose busulfex, fludarabine and alemtuzumab (CAMPATH) followed by sten cell infusion will allow for donor stem cells to grow in patients with hemoglobinopathies bone marrow and restore circulating blood counts. In addition the incidence and severity of side effects and of graft vs. host disease (GVHD) will be monitored.
Sickle cell disease is a life-threatening genetic disorder that can be effectively treated following early diagnosis via newborn screening. However, sickle cell disease is most prevalent in low-resource regions of the world, where newborn screening is rare due to the cost and logistical burden of laboratory-based methods. In many such regions, \>80% of affected children die, undiagnosed, before the age of five years. A convenient and inexpensive point-of-care test for sickle cell disease is thus crucially needed. In this study we will conduct a blinded, multicenter, prospective diagnostic accuracy study of HemoTypeSC(TM), an inexpensive 15-minute point-of-care immunoassay for detecting sickle cell disease, hemoglobin C disease, and trait phenotypes in newborns, children, and adults.
Subjects have a form of sickle cell disease, called hemoglobin SC disease. This results in abnormally shaped red blood cells that get 'stuck' in blood vessels and then results in episodes of severe pain (pain crises). Patients with the more common form of sickle cell disease, called hemoglobin SS disease, also suffer from pain crises. Treatment with the drug hydroxyurea is available to help prevent the pain crises in hemoglobin SS disease, but there is no good treatment to help prevent the pain crises in hemoglobin SC disease. It has been shown that one of the reasons for the formation of the abnormally shaped red blood cells in patients with SC disease is the fact that these cells do not contain enough water; they are dehydrated. Drinking more water will not increase the amount of water in the cells. Certain salts and minerals can however have an effect on the amount of water in the red blood cells. One of the most important minerals influencing this is called magnesium. Magnesium is present in food and also in certain medications used to treat heartburn. Magnesium has been used successfully both in animals and people to increase the amount of water in the red blood cells and is very well tolerated by most people. Investigators are using a new form of magnesium known as magnesium pidolate because this form of magnesium may help with the symptoms of disease without causing diarrhea (a common side effect of magnesium products). Purpose The purpose of this study is to find out whether treatment with magnesium pidolate will increase the amount of water in the red blood cell and result in fewer painful crises in patients with hemoglobin SC disease while not causing diarrhea. The study will last for about 64 weeks (about 16 months).
Sickle cell disease (SCD), also known as sickle cell anemia, is an inherited blood disease that can cause intense pain episodes. Hemoglobin SCD (HbSC) is a form of SCD that is characterized by dense red blood cells. The purpose of this study is to evaluate the safety and effectiveness of hydroxyurea and magnesium pidolate, alone and combined, at reducing red blood cell density and the frequency of pain episodes in people with HbSC.
A promising approach for the treatment of genetic diseases is called gene therapy. Gene therapy is a relatively new field of medicine in which genetic material (mostly DNA) in the patient is changed to treat his or her own disease. In gene therapy, we introduce new genetic material in order to fix or replace the patient's disease gene, with the goal of curing the disease. The procedure is similar to a bone marrow transplant, in that the patient's malfunctioning blood stem cells are reduced or eliminated using chemotherapy, but it is different because instead of using a different person's (donor) blood stem cells for the transplant, the patient's own blood stem cells are given back after the new genetic material has been introduced into those cells. This approach has the advantage of eliminating any risk of graft versus host disease (GVHD), reducing the risk of graft rejection, and may also allow less chemotherapy to be utilized for the conditioning portion of the transplant procedure. To introduce new genetic material into the patient's own blood stem cells we use a modified version of a virus (called a 'vector') that efficiently inserts the "correcting" genetic material into the cells. The vector is a specialized biological medicine that has been formulated for use in human beings. Fetal hemoglobin (HbF) is a healthy, non-sickling kind of hemoglobin. The investigators have discovered a gene that is very important in controlling the amount of HbF. Decreasing the expression of this gene in sickle cell patients could increase the amount of fetal hemoglobin while simultaneously reducing the amount of sickle hemoglobin in their blood, specifically the amount in red blood cells where sickle hemoglobin causes damage to the cell, and therefore potentially cure or significantly improve the condition. The gene we are targeting for change in this study that controls the level of fetal hemoglobin is called BCL11A. In summary, the advantages of a gene therapy approach include: 1) it can be used even if the patient does not have a matched donor available; 2) it may allow a reduction in the amount of chemotherapy required to prepare the patient for the transplant; and 3) it will avoid certain strong medicines often required to prevent and treat GVHD and rejection. Our lab studies with normal mice, mice that have a form of SCD, and with cells from the bone marrow of SCD patients who have donated bone marrow for research purposes show this approach is very effective in reducing the amount of sickle hemoglobin in red cells. Our pilot trial testing this approach in 10 patients with SCD has shown that the treatment has not caused any unexpected safety problems, and that it increases HbF within the red blood cells. Our goal is to continue to test whether this approach is safe, and whether using gene therapy to change the expression of BCL11A will lead to decreased episodes of vaso-occlusive crisis pain in people with SCD.
Sickle Cell Disease (SCD) is a hereditary anemia that causes the red blood cells to change their shape from a round and doughnut-like shape to a half-moon/crescent, or sickled shape. People who have SCD have a different type of hemoglobin (protein that carries oxygen). This different type of hemoglobin makes the red blood cells change into a crescent shape under certain conditions. Sickle-shaped cells are a problem because they often get stuck in the blood vessels blocking the flow of blood and can cause inflammation and injury to important areas of the body. All babies are born with hemoglobin called fetal hemoglobin (HbF). Soon after birth, HbF production slows down and another hemoglobin called adult hemoglobin (HbA) is made. Clinical studies have shown that increasing the amount of HbF in the blood may prevent sickling of the red blood cells. Vorinostat has been used in the treatment of cancers and in other research studies and information from those suggests that it may help treat SCD by increasing the amount of HbF in the blood. The purpose of this research study is to determine the effectiveness and safety of vorinostat when used to treat SCD.
Chronic blood transfusions are essential supportive care for sickle cell patients at high risk for morbidity and mortality due to stroke. These patients, however, are at risk for iron overload. In the investigator's comprehensive sickle cell center, the investigators support chronic transfusion with rapid manual partial exchange transfusions (RMPET) using a single access central line port. The investigators do not have a comprehensive adult sickle cell program but upon transition of patients the patients would be provided simple transfusion (ST) in an adult ambulatory infusion setting due to nursing acuity needed for RMPET. The investigators plan to study the institution's participants currently on chronic transfusion support and compare different transfusion modalities to better understand the effects from switching from RMPET to ST. To date, there are no such comparisons within and between sickle cell patients in the literature.
The purpose of this study is to evaluate the effects of HQK-1001 on Hb F in subjects with sickle cell disease.
The purpose of this study is to evaluate the safety and tolerability of three dose levels of HQK-1001 administered once daily for 26 weeks in subjects with sickle cell disease.
The purpose of this study is to evaluate the long-term safety and efficacy of EDIT-301 in participants with severe sickle cell disease (SCD) or transfusion-dependent β-thalassemia (TDT) who have received EDIT-301.
The purpose of this study is to find out whether siplizumab is safe and effective for patients with SCD undergoing an allogeneic transplant and to prevent development of Graft versus Host Disease (GVHD) and graft failure. The main goals of this study are : * To determine if acute GVHD occurs and how severe the acute GVHD is in subjects receiving the study drug * To determine if graft failure occurs in subjects receiving the study drugs In this study, participants will receive 5 infusions of the study drug, siplizumab, while getting a stem cell transplant for SCD. Before siplizumab infusion, participants will be given medications to reduce the risks of allergic reaction to the drug.
The purpose of this study is to evaluate the efficacy, safety and tolerability of treatment with EDIT-301 in adult and adolescent participants with severe sickle cell disease (SCD).
The purpose of the CSEG101A2202 study was to characterize the Pharmacokinetic (PK) and Pharmacodynamic (PD) of SEG101/crizanlizumab and to evaluate the safety and efficacy of SEG101/crizanlizumab in sickle cell disease (SCD) patients.
As part of routine care for SCD, some people are found to have low oxygen levels (≤ 88%) while sleeping, at rest, or with exercise. Testing is done with a small portable device positioned on the finger that measures oxygen levels during sleep, at rest, or following exercise. The investigators start oxygen treatment for people with low levels of oxygen. As a part of this study, the investigators will find out if any changes in cell "stickiness" occur with low oxygen levels (at rest, at night, or with exertion) and if cells become "less sticky" with oxygen treatment. Study subjects will be seen before testing and 2 months after testing. In some cases (people with low oxygen levels during testing), study subjects will have been prescribed oxygen, and the investigators will test the effects of that treatment on the stickiness of red cells.
The purpose of this study is to determine whether metformin is effective in the treatment for sickle cell anemia (SCA).
The purpose of the study is to determine the effectiveness of LOVAZA (fish oil capsules) to decrease inflammation in children and adolescents with Sickle Cell Disease (SCD). It has been found that besides the damage caused by sickle red blood cells themselves, the inflammatory response that occurs in SCD patients could potentially play a significant role in the occurrence of painful episodes or pain crises. The investigators will also study whether the subject/caregiver feels that there is an improvement in the child's quality of life by taking the medication. Besides the effect of LOVAZA on inflammation,the investigators are also testing whether the drug will have a beneficial effect on blood clotting ability (which is known to be increased in SCD) and on the anemia (low red blood cells) that is part of the disease entity.
The primary objectives of this prospective mixed-method interview study are to use semi-structured interviews in parents of sickle cell disease (SCD) patients to describe parental attitudes of research involving genomic sequencing, including concerns about participation and expectations from researchers and to use surveys to quantitatively measure genetic/genomic knowledge, trust in health care provider, and literacy/numeracy ability in parents of children with SCD and adolescents with SCD. Investigators hope to use the results of the planned surveys and interviews to reduce the risk of misunderstanding about DNA and genetic research and build strong relationships between SCD families and researchers in the future, and to design educational information and study materials that will help parents with children with SCD understand important details about DNA and genetic research.
The purpose of this study is to determine whether giving abciximab (ReoPro) to children with sickle cell disease who are hospitalized for acute pain crisis will improve their pain and shorten the time spent in the hospital, when compared with standard supportive care.
Children with sickle cell disease (SCD) are at risk for central nervous system (CNS) complications, which may affect academic achievement. This study will evaluate an educational support program for parents that aims to improve academic achievement in children with SCD.
Sickle cell disease (SCD) is a blood disorder that is characterized by intense, painful episodes known as sickle cell crises. This study will evaluate the effectiveness of PAINRelieveIt, a three-part computer-based pain management tool, in treating adults with SCD.
Children with sickle cell anemia (SCA) seem to have higher energy needs than children who do not have the disease. This may be the reason why children and teenagers with sickle cell anemia tend to be smaller, weigh less, and have less fat and muscle than children and teens that do not have the disease. This study is being done to find out if giving a supplement called glutamine will help children with sickle cell anemia by lowering their energy needs and improving their growth and strength. Children will be randomly assigned (like a flip of a coin) to one of two groups. One group will take glutamine and one group will take a placebo (a protein mixture that looks like glutamine but may not have the same effect in the body). No one will know which group is taking which supplement until the study has been completed. Children will be in the study for 12 months.
The purpose of this study is to find out if using a lower dose of chemotherapy before stem cell transplantation can cure patients of sickle cell anemia or thalassemia while causing fewer severe side effects than conventional high dose chemotherapy with transplantation.
Sickle cell anemia is a genetic disorder that results from a single nucleotide substitution in codon 6 of the beta-globin gene which, in the homozygous state, produces an abnormal hemoglobin that is prone to polymer formation when deoxygenated. The polymerized hemoglobin leads to impaired deformability and sickling of red blood cells which subsequently lodge in end-arterioles producing the classic and most prominent feature of the disorder, repeated vasoocclusive crises. Despite knowledge of the precise genetic defect for decades, only recently has there been therapeutic impact based upon this knowledge when a clear benefit from treatment with hydroxyurea, a cell cycle-specific agent administered to induce production of fetal hemoglobin (HbF) by stimulating gamma-globin synthesis, was reported in patients with sickle cell disease (SCD). The reduction in the frequency and severity of vasoocclusive crises seen has been attributed to the increase in HbF levels in responsive patients. While the majority of patients demonstrate a rise in HbF, not all such patients benefit from treatment. Given these results, alternative agents that also stimulate the production of HbF warrant investigation in the treatment of SCD. Recombinant-methionyl human stem cell factor (SCF) is a hematopoietic growth factor with activity on immature hematopoietic progenitor cells. SCF stimulates the production of HbF in vitro and in vivo, and this effect is attainable without the myelosuppression associated with hydroxyurea. In this phase I/II trial, we will administer SCF in a dose escalating fashion to patients with sickling disorders. Parameters to be measured are HbF levels, F cell levels, peripheral blood CD34 levels, frequency, duration, and severity of vasoocclusive crises, and toxicity.
Background: Sickle cell disease (SCD) is a genetic disease that causes the body to produce abnormal ( sickled ) red blood cells. SCD can cause anemia and life-threatening complications in the lungs, heart, kidney, and nerves. People with SCD are also at increased risk of forming blood clots in the veins and lungs, but the standard treatments for these clots can cause increased bleeding in people with SCD. Better treatments are needed. Objective: To test a drug (fostamatinib) in people with SCD. Eligibility: People aged 18 to 65 with SCD. Design: Participants will have 6 clinic visits over 12 weeks. Each visit will be 2 to 3 hours. Participants will be screened. They will have a physical exam with blood tests. They will tell the researchers about the medications they take. Fostamatinib is a tablet taken by mouth. Participants will take the drug at home, twice a day, for up to 6 weeks. Participants will have a clinic visit every 2 weeks while they are taking the drug. At each visit they will have a physical exam with blood tests. They will talk about any side effects the drug may be causing. If they are tolerating the drug well after the first 2 weeks, they may begin taking a higher dose. Participants will have a final visit 4 weeks after they stop taking the drug. They will have a physical exam and blood tests; they will be checked for any side effects of the drug.
The purpose of this study is to evaluate the performance of the AMICUS Red Blood Cell Exchange (RBCx) System (Exchange and Depletion/Exchange procedures) in patients with sickle cell disease.