View clinical trials related to Anemia, Sickle Cell.
Filter by:The purpose of this study is to take advance of the presence of two different cohorts of SCA patients in one country, the first group included SCA patients from Bedouin Arab origin that lives in Israel for more than one century and originally comes from African countries or Saudi Arabia, those patients lives in north east Israel and are treated at the Hematology Unit of the Emek Medical Center, the second group are SCA patients from African origin that come to Israel in the last decades and belong to original African population, this group receive treatment at the Pediatric Hematology Unit, Dana Children's Hospital, Ichilov Medical Center. A third group is a cohort of SCA patients treated at Schneider Children's Hospital Hematology Unit. Those patients belong also to the Israel Arab population and patients from a village that African Muslims live for many years. The characteristics of the three groups will be compared to the characteristics of a fourth group, a cohort of Afro-American SCA patients that are followed up and treated at the Pediatric Hematology Unit, Detroit Children's Medical Center, Detroit, Michigan, USA.
Allogeneic blood or marrow transplantation (alloBMT) is a curative therapy for a variety of hematologic disorders, including sickle cell disease and thalassemia. Even when it is clear that alloBMT can give to these patients an improvement in their disease, myeloablative transplants have important toxicities and mortalities associated. The lack of suitable donors continues to be a limit to access to transplantation. Substantial progress has been made recently in the development of pre-treatment regimens that facilitate the sustained engraftment of donor marrow with reduced toxicity. Most of these regimens incorporate highly immunosuppressive drugs, which allow the reduction or elimination of myeloablative agents or total body irradiation without endangering the sustained engraftment of HLA-identical allogeneic stem cells. Preliminary results of non-myeloablative allogeneic stem cell transplantation suggest that the procedure can be performed in patients who are ineligible for myeloablative alloBMT, and that sustained remissions of several hematologic malignancies can be obtained.
Sickle cell disease (SCD) is the most common inherited disorder worldwide affecting 300,000 births annually, most occuring in sub-Saharan Africa (SSA) where poor detection and care result in high childhood mortality, malnutrition, illness and disability in survivors. SCD is caused by abnormal haemoglobin, the compound in red blood cells(RBC) that carries oxygen. Much of the disability in SCD may be caused by vascular damage from the breakdown of damaged RBC. Research in high-income countries has led to some effective therapies but these are currently costly and complex. The investigators will test two different formulations of an affordable, ready-to-use supplementary food (RUSF) specifically tailored for children with SCD. As well as containing energy, protein, essential fats, vitamins and minerals, the vascular RUSF (RUSFv) will be fortified with the amino-acids arginine and citrulline and be delivered with a daily chloroquine dose to create a novel "nutraceutical" intervention. Arginine is converted to nitric oxide which is essential for vascular health. Arginine levels are low in SCD because the arginine-degrading enzyme, arginase, is released from RBCs. The investigators propose that by supplying additional arginine (and citrulline which converts to arginine) and suppressing arginase activity (an action of chloroquine) the investigators can improve vascular function. Our study will test this theory, and if provision of RUSF improves growth in children with SCD.
Sickle cell disease (SCD) is an inherited blood disorder that causes the red blood cells to change their shape from a round shape to a half-moon/crescent or sickled shape. Sickle-shaped cells can cause problems by getting stuck in blood vessels, blocking blood flow, and can cause inflammation and injury to important body parts. There are no specific treatments that improve this condition and promote blood flow hindered by sickle cell blockages. Another big challenge in managing sickle cell disease is that there are no good measures to determine changes and improvements in blood flow. Contrast-enhanced ultrasound is a technique currently used to detect blood flow in the heart, muscles, and other organs. It is extremely sensitive and can detect blood flow in the smallest of blood vessels. It would be very useful in helping healthcare providers know whether treatment strategies are improving blood flow during sickle cell blockages. The hypothesis is that contrast-enhanced ultrasound will be a feasible tool for determining changes in blood flow of subjects with sickle cell disease.
This study is being done to determine the safety and outcome (long-term control) of a high-dose chemotherapy regimen followed by an infusion of CD34 selected (immune cells) stem cells from a partially matched adult family member donor, called haploidentical stem cell transplantation, in high-risk sickle cell disease patients. Funding Source - FDA OOPD
The aim of this study is to identify patients with problem list gaps and intervene to correct these gaps by creating clinical decision support interventions that alert providers to likely problem list gaps and offer clinicians the opportunity to correct them. The investigators will randomize the clinics that will receive the intervention and formally evaluate the study after a period of 6 months for improved problem list completeness to determine the effectiveness of our intervention.
Background: Bone marrow transplantation (BMT), which involves transplanting a donor's marrow stem cells, is capable of curing some congenital anemias. BMT usually involves high-intensity treatment with chemotherapy and radiation to kill abnormal cells, which affects all systems of the body. People with anemias often have damage to other organs such as the kidneys, which can be further damaged by the chemotherapy. Only approximately 20 percent of patients have a full-matched donor, making treatment for many people with anemias unavailable. However, 90 percent of patients may have a half-matched donor, but using a half-matched donor increases the toxicity of BMT. Objectives: To determine if a research BMT with half-matched donor cells, low-intensity radiation, immunosuppressant drugs, and no chemotherapy will be effective in patients with sickle cell disease and Beta-thalassemia. To determine the effectiveness of cyclophosphamide, an immunosuppressant drug, in preventing rejection of the donor cells. Eligibility: Recipients are individuals at least 18 years of age who have been diagnosed with sickle cell disease and Beta-thalassemia, and who have a family member who is a haploidentical (i.e., half match) tissue match. Donors are healthy individuals between the ages of 2 and 80 who are found to be suitable donors. Design: Donors will undergo apheresis, which involves withdrawing blood from one arm vein, passing it through a machine that removes bone marrow stem cells, and returning the remaining blood through the vein in the other arm. Donors will receive a drug that causes the stem cells to be released into the bloodstream prior to the apheresis procedure. Recipients will undergo routine physical and laboratory examinations, including bone marrow sampling at the beginning of the study. After transplantation, physical and laboratory examinations will occur on a weekly or twice weekly basis at the outpatient clinic. Recipients will be examined every 6 months starting 100 days posttransplant for 5 years. Recipients will receive low-dose radiation in two treatments 1 and 2 days before the transplant. They will also be given immunosuppressant therapy with alemtuzumab and sirolimus. Another immunosuppressant drug, cyclophosphamide, will be given in the future as needed to subsets of the recipients to prevent rejection of donor cells. Recipients will receive the donor stem cells through a previously inserted central line. The process takes up to 8 hours. Recipients will receive blood transfusions as necessary to prevent anemia and bleeding during the posttransplant period. They may also receive intravenous antibiotics to prevent infection.
Most patients with sickle-cell disease have periodic intensely painful episodes. To manage this pain, we are proposing the drinking of at least 500 mL of water followed by far infrared radiation.
Recent data show that pulmonary hypertension (PH), defined by a tricuspid regurgitation jet (TRJ) velocity > or equal at 2.5m/s on Doppler echocardiography, is present in about 30% of adults with sickle cell disease (SCD) and is associated with poor prognosis. However in SCD the occurrence of PH (defined by mean pulmonary arterial pressure (mPAP)> or equal at 25 mmHg) is related to at least 3 mechanisms: PH due to hyperkinetic state with high cardiac output (CO) but normal pulmonary vascular resistance (PVR <160 dynes), or postcapillary PH (pulmonary capillary wedge pressure PCWP >15 mmHg), or precapillary pulmonary arterial hypertension (PAH) defined by mPAP > or equal at 25 mmHg, PCWP< or equal at 15 mmHg and PVR > or equal at 160 dynes.The aim of this study is to evaluate in a French population of adults with sickle cell disease the characteristics, prevalence and prognosis of pulmonary hypertension.
The primary purpose of this study is to see if giving lower doses of chemotherapy (moderately ablative) will result in successful bone marrow replacement without as severe side-effects but with permanent control of the disease. Patients will receive a chemotherapy regimen with busulfan, fludarabine, and alemtuzumab followed by an infusion of stem cells, either from a family-related or cord-blood matched donor.