View clinical trials related to Anemia, Sickle Cell.
Filter by:Staying out of the hospital is valued by patients and their caregivers. Their interests converge with those of hospitals now that high 30-day readmission rates for some conditions place hospitals at risk for financial penalties from the Centers for Medicare and Medicaid Services. This study focuses on developing and testing a program that combines a community health worker (lay patient advocate, acting as a "Patient Navigator") and a peer-led telephone support line to improve patient experience during hospital to home transition.
This study is being conducted to assess the safety, tolerability, pharmacokinetics and pharmacodynamics of an investigational drug, PF-04447943, in subjects with stable sickle cell disease with and without co-administration with hydroxyurea. This study will also aid in selecting the doses for future studies and evaluation of substances in the blood which may help access the effectiveness of the drug.
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.
The purpose of this study is to determine the feasibility of performing a larger multicenter phase III trial to assess the effects of unfractionated heparin (UFH) in acute chest syndrome (ACS). Prespecified feasibility criteria consists of the ability to enroll potential study participants, which includes the timely notification of hospitalized patients with ACS, the capacity to consent eligible individuals, and the ability to appropriately randomize eligible patients within 24 hours of diagnosis. Additional feasibility objectives involve ensuring appropriate eligibility criteria, proper administration of the study drug, and the ability to completely and accurately collect clinical data of interest. The final aim of our pilot study is to provide preliminary data, with respect to treatment effect and variance, to allow sample size calculation in a larger trial given the lack of data available to help guide this process. The investigators hypothesize that the use of UFH in ACS will result in a decrease in the duration of hospitalization and improve other clinical outcomes, such as the duration of hypoxemia and duration of moderate to severe pain.
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.
Sickle cell disease (SCD) affects haemoglobin - the molecule in blood cells which carries oxygen. It causes red blood cells to become abnormal crescent (or sickle)- shaped. Sickled red blood cells cannot travel through small blood vessels as easily as normal red blood cells which can lead to blockages. This means that oxygen may be prevented from getting to where it is needed. Individuals with sickle cell disease also suffer form abnormality in the lining of their blood vessels, which contributes to the damage. Damage and blockage can occur in the blood vessels in the brain and means that children with sickle cell disease have a significant risk of suffering from strokes. Research has shown that transcranial Doppler ultrasonography can be used in this setting to identify children at most risk of getting strokes. Ultrasound is therefore used in children with sickle cell disease to measure the blood flow in the vessels in the brain. This research has formed the basis of the National Health Service (NHS) Standard of Care for Sickle Cell Disease in the United Kingdom (UK) which uses transcranial Doppler ultrasonography at once a year to screen children with sickle cell disease aged 2 to 16. Ultrasound is used because it is portable, does not uses ionising radiation such as x-rays, is non-invasive and gives good results. However, the results are dependent on the operator. This means that the screening service is provided by centres of excellence with experienced scanning staff visiting clinics in smaller hospitals with portable machines. There is a lack of research comparing the use of portable machines to laboratory-based machines. This is important because screening can identify children at high risk of stroke and may be used by clinical staff to make a decision about the care of the child.
Sickle cell anemia (SCA) patients experience organ damage that begins at an early age and results in significant morbidity and early mortality. Although all SCA patients share the same genetic mutation, the clinical complications are highly variable with some patients experiencing frequent and severe complications, while others have few serious complications. If SCA severity could be predicted early in life, those patients at greatest risk for complications could receive treatment prior to the onset of organ damage. No general SCA severity predictor or one that can be informative early in life exists. The investigators preliminary research has identified the absolute reticulocyte count (ARC) as a potential early predictive risk marker for SCA complications in pediatric patients. A higher ARC between ages 2 and 6 months of age is associated with an increased risk of hospitalization in the first 3 years of life; the mean ARC for the 36 patients who were hospitalized for SCA complications was significantly higher than that of the remaining 23 in those who were not hospitalized. Moreover, total hospitalizations were nearly three times higher by age 2 years in those infants who had an ARC of > 200 than for those infants whose ARC was <200. The proposed study will determine if ARC can be used as a risk-stratifier in asymptomatic infants with SCA and ascertain its value in targeting hydroxyurea therapy to those infants at highest risk of SCA sequelae.
The primary study hypothesis is that inhibition of factor Xa with rivaroxaban will reduce inflammation, coagulation and endothelial cell activation, and improve microvascular blood flow in patients with sickle cell disease (SCD) during the non-crisis, steady state. To test this hypothesis, this study will evaluate the effects of rivaroxaban on: - plasma markers of inflammation; - plasma markers of endothelial activation; - plasma markers of thrombin generation; and - microvascular blood flow assessed using laser Doppler velocimetry (LDV) of post-occlusive reactive hyperemia (PORH). In a cross-over design, subjects will receive rivaroxaban 20 mg/day and placebo for 4 weeks each, separated by a 2-week washout phase.
This study will evaluate pediatric patients with malignant or non-malignant blood cell disorders who are having a blood stem cell transplant depleted of T cell receptor (TCR) alfa and beta cells that comes from a partially matched family donor. The study will assess whether immune cells, called T cells, from the family donor, that are specially grown in the laboratory and given back to the patient along with the stem cell transplant can help the immune system recover faster after transplant. As a safety measure these T cells have been programmed with a self-destruct switch so that they can be destroyed if they start to react against tissues (Graft versus host disease).
This is a study of patients with sickle cell disease. It aims to find out if people with sickle cell disease can be cured by changing their immune system before they have blood stem cell transplants. Doctors will give patients a new drug (fludarabine) to see if this drug changes patients immune system and reduces the patient's cells (host) from rejecting donor cells (graft) after the patient gets a Hematopoietic (blood) stem cell transplant.