View clinical trials related to Sickle Cell Disease.
Filter by:The primary aim of this study is to evaluate MRI-based cerebrovascular reserve (CVR) measurements in adult patients with Sickle Cell Disease (SCD). The primary objective is to assess whether there is a correlation between CVR and silent cerebral infarcts (SCIs).
Sickle cell disease (SCD) is the most common inherited blood disorder in Saudi Arabia . Its clinical severity is widely heterogeneous among patients who share the same genetic mutation . Severe frequent pain crisis, recurrent acute chest syndrome and stroke are features of severe SCD. Hydroxyurea is an effective treatment of SCD as it ameliorates the severity and frequency of pain crisis and acute chest syndrome and decreases mortality, however, it is less effective in the prevention and treatment of stroke and other end organ dysfunctions . The only readily available cure of SCD is by hematopoietic stem cell transplantation (HSCT) . Most children with SCD who are treated by HSCT receive myeloablative conditioning with excellent results. The application of reduced intensity (RIC) and non-myeloablative (NMA) conditioning regimens are reserved for patients older than 16 years of age because of the increased risks of morbidity and mortality after HSCT6. However, infertility and gonadal failure after myeloablative conditioning are important barriers to the willingness of patients and their families to undergo HSCT . The development of an effective RIC HSCT in SCD that might spare the fertility of SCD patients would have obvious merit. With the ultimate goal of expanding this curative therapy to SCD patients, we propose to investigate HSCT with a RIC conditioning regimen. We will carry out a pilot study of HSCT from HLA matched sibling donors using thymoglobulin/fludarabine/melphalan conditioning and sirolimus and mycophenolate mofetil (MMF) as GVHD prophylaxis in SCD patients with severe complications such as stroke and other severe complications. We hypothesize that HSCT from HLA matched sibling using thymoglobulin/fludarabine/melphalan conditioning in SCD will maintain a level of stable donor chimerism that is sufficient to cure SCD with minimal toxicity.
The purpose of this study is to collect and store samples and health information for current and future research to learn more about the causes and treatment of blood diseases. This is not a therapeutic or diagnostic protocol for clinical purposes. Blood, bone marrow, hair follicles, nail clippings, urine, saliva and buccal swabs, left over tissue, as well as health information will be used to study and learn about blood diseases by using genetic and/or genomic research. In general, genetic research studies specific genes of an individual; genomic research studies the complete genetic makeup of an individual. It is not known why many people have blood diseases, because not all genes causing these diseases have been found. It is also not known why some people with the same disease are sicker than others, but this may be related to their genes. By studying the genomes in individuals with blood diseases and their family members, the investigators hope to learn more about how diseases develop and respond to treatment which may provide new and better ways to diagnose and treat blood diseases. Primary Objective: - Establish a repository of DNA and cryopreserved blood cells with linked clinical information from individuals with non-malignant blood diseases and biologically-related family members, in conjunction with the existing St. Jude biorepository, to conduct genomic and functional studies to facilitate secondary objectives. Secondary Objectives: - Utilize next generation genomic sequencing technologies to Identify novel genetic alternations that associate with disease status in individuals with unexplained non-malignant blood diseases. - Use genomic approaches to identify modifier genes in individuals with defined monogenic non-malignant blood diseases. - Use genomic approaches to identify genetic variants associated with treatment outcomes and toxicities for individuals with non-malignant blood disease. - Use single cell genomics, transcriptomics, proteomics and metabolomics to investigate biomarkers for disease progression, sickle cell disease (SCD) pain events and the long-term cellular and molecular effects of hydroxyurea therapy. - Using longitudinal assessment of clinical and genetic, study the long-term outcomes and evolving genetic changes in non-malignant blood diseases. Exploratory Objectives - Determine whether analysis of select patient-derived bone marrow hematopoietic progenitor/stem (HSPC) cells or induced pluripotent stem (iPS) cells can recapitulate genotype-phenotype relationships and provide insight into disease mechanisms. - Determine whether analysis of circulating mature blood cells and their progenitors from selected patients with suspected or proven genetic hematological disorders can recapitulate genotype-phenotype relationships and provide insight into disease mechanisms.
This is a follow-up trial to NYMC 526 (NCT01461837) to assess the safety, efficacy and toxicity of administering Defibrotide prophylaxis for high-risk sickle cell or beta thalassemia patients undergoing a familial haploidentical allogeneic stem cell transplantation with CD34 enrichment and T-cell addback. This patient population historically has a risk of developing sinusoidal obstructive syndrome (SOS) and Defibrotide has demonstrated efficacy in treatment of SOS. The Funding Source is FDA OOPD.
The purpose of this study is to determine if the use of ketamine, sniffed in the nose, is a safe and effective way to help reduce pain in pediatric sickle cell patients with pain crises in resource-limited settings.
The purpose of this study is to determine whether giving extra arginine to patients with sickle cell disease seeking treatment for vaso-occlusive painful events (VOE) will decrease pain scores, decrease need for pain medications or decrease length of hospital stay or emergency department visit.
This is a study to collect the outcomes of stem cell transplantation for patients with hematologic diseases other than cancer.
Background: - Some sickle cell disease or beta-thalassemia can be cured with transplant. Researchers want to test a variation of transplant that uses low dose radiation and a combination of immunosuppressive drugs. They want to know if it helps a body to better accept donor stem cells. Objectives: - To see if low dose radiation (300 rads), oral cyclophosphamide, pentostatin, and sirolimus help a body to better accept donor stem cells. Eligibility: - People 4 and older with beta-thalassemia or sickle cell disease that can be cured with transplant, and their donors. Design: - Participants and donors will be screened with medical history, physical exam, blood test, tissue and blood typing, and bone marrow sampling. They will visit a social worker. - Donors: - may receive an intravenous (IV) tube in their groin vein. - will receive a drug injection daily for 5 or 6 days to move the blood stem cells from the bone marrow into general blood circulation. - will undergo apheresis: an IV is put into a vein in each arm. Blood is taken from one arm, a machine removes the white blood cells that contain blood stem cells, and the rest is returned through the other arm. - Participants: - may undergo red cell exchange procedure. - will remain in the hospital for about 30 days. - will receive a large IV line that can stay in their body from transplant through recovery. - will receive a dose of radiation, and transplant related drugs by mouth or IV. - will receive blood stem cells over 8 hours by IV. - will take neuropsychological tests and may complete questionnaires throughout the transplant process. - must stay near NIH for 4 months. They will visit the outpatient clinic weekly. - will have 5 follow-up visits for 3 years after transplant, then annually.
Despite the important work of previous sickle cell disease (SCD) cohort studies, there remain many understudied areas that require investigation. An important knowledge deficit is the slow but progressive process of chronic end-organ dysfunction. The majority of organ dysfunction becomes apparent in the young adult years, but comprehensive assessment of adults and understanding of predictors of adulthood organ dysfunction are insufficient. Similarly, the role of disease-modifying therapies, such as hydroxyurea, in preventing organ dysfunction later in life is not clear. Extended follow-up of patients through the transition into adulthood is imperative to understand the long-term implications of pediatric sickle cell care. This observational study will collect data in a systematic fashion at participants' regular clinic visits (in-person or remote) to answer the objectives described below. In addition to primary study objectives, SCCRIP participants will be eligible to participate in a sub-study, which will investigate genetically determined responses to Hydroxyurea (HU) via a pharmacokinetic study (PK). This one time study will involve blood collection at timed intervals proceeding a dose of HU. Defining the basis for this inter-individual variability will allow the identification of poor HU responders prior to initiation of therapy and the seeking of alternative treatments which seek to optimize disease treatment by accounting for individual variability in genes, environment, and lifestyle.
The purpose of this study is to determine whether intravenous immune globulin is safe and effective in the acute treatment of pain crises in sickle cell disease. Funding Source: Food and Drug Administration (FDA), Office of Orphan Products Development (OOPD)