View clinical trials related to Sickle Cell Anemia.
Filter by:We are the missing link in clinical trials, connecting patients and researchers seamlessly and conveniently using a mobile health platform to advance medical research. We make it easy for patients to contribute to research for medical conditions that matter most to them, regardless of their location or ability to travel.
Sickle Cell disease is caused by an inherited hemoglobin disorder. Healthy red blood cells are discoid and can deform and move through small blood vessels to carry oxygen to all parts of the body. In Sickle Cell disease, as red blood cells circulate and oxygen is released, the deoxygenated abnormal Hemoglobin S can begin to polymerize and cause red cells to become sticky and elongated. These "sickled" red cells are less flexible and will obstruct small blood vessels and prevent normal red cells from circulating freely, which limits oxygen delivery to tissues and organs. This is known as a "sickling crisis" or "vaso-occlusive crisis" and is the leading cause of hospitalization in patients with Sickle Cell disease. Patients suffering from a sickle crisis experience severe pain and are at risk of stroke, heart attack or even death. Current therapy is limited to hydration and symptomatic pain relief. The administration of MP4CO as an adjunct treatment to standard therapy may alleviate pain associated with a sickling crisis and potentially reduce the severity and duration of a crisis. This may shorten the time in hospital and potentially improve the quality of life for patients with sickle cell anemia.
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.
The objective of this study is to assess the effect of alkali administration on bicarbonate and potassium levels in patients with Sickle Cell Disease (SCD) and depressed serum bicarbonate levels. The study is a prospective non-blinded evaluation of tolerability and efficacy of alkali repletion with 4 weeks of observation and two sequential 4 week courses of escalating oral sodium bicarbonate treatment.
People who have Sickle Cell Anemia (HbSS) produce red blood cells with shorter lifespans. These red blood cells breakdown faster, and this is called hemolysis. When red blood cells breakdown, a tiny amount of Carbon Monoxide (CO) is released into the blood and is eliminated in exhaled breath. This research study will use a device called CoSense™, which will measure Carbon Monoxide (CO) levels in breath. The purpose of the study is to see how well the device measures the CO levels that an individual breathes out.
Given large absolute numbers of individuals with sickle cell disease in Nigeria, hydroxyurea therapy for all individuals with sickle cell disease may not be initially feasible; however, a targeted strategy of hydroxyurea use for primary prevention of strokes is an alternative to the standard therapy (observation) for high-risk individuals. The investigators propose a feasibility study, Sickle Cell Disease - Stroke Prevention in Nigeria (SPIN) Trial, to determine whether hydroxyurea can be used for primary prevention of strokes in Nigerian children with sickle cell anemia.
Part 1: A pilot study in patients with homozygous S (HbSS) or hemoglobin S with beta zero thalassemia(HbS-βo thalassemia), with the aim of examining the effect of intravenous NAC treatment on plasma VWF parameters and measures of redox and RBC function. Part 2: A pilot study in patients with sickle cell disease admitted to the hospital in vaso-occlusive crisis to determine the effects of NAC infusions on plasma VWF parameters and measures of redox and RBC function, and on measures of pain and hospital length of stay.
This research study is a Phase II clinical trial, which tests the safety and effectiveness of an investigational drug called Regadenoson (or Lexiscan) to learn whether the drug works in treating a specific disease, in this case Sickle Cell Disease (SCD). "Investigational" means that the drug is being studied. It also means that the FDA has not yet approved the drug for your type of 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. People who have SCD have a different type of protein that carries oxygen in their blood (hemoglobin) than people without SCD. This different type of hemoglobin makes the red blood cells change into 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 cause inflammation and injury to important areas in the body. Regadenoson (trade name Lexiscan) is a drug that may prevent this inflammation and injury caused by the sickle shaped cells. This drug is approved by the FDA to be used as a fast infusion during a heart stress test in people who are unable to exercise enough to put stress on their heart by making the heart beat faster. Regadenoson has been studied as a long infusion at this dose in adults, and no safety issues have been identified (ClinicalTrials.gov Identifier: NCT01085201). This is the first study to look at patient benefit with the long infusion of the drug. This drug has been used in laboratory experiments and information from those other research studies suggests that this drug may help to protect the body from damage caused by sickle-shaped cells in this research study. In this research study, the investigators are specifically looking to see if Regadenoson is an effective treatment for pain crises and acute chest syndrome in SCD.
The BABY HUG Treatment Study was designed to see if treatment with the drug hydroxyurea (also called HU) in children with sickle cell disease could prevent organ damage, especially in the spleen and kidneys. There was also a chance that treatment could prevent painful crises, lung disease, stroke, and blood infection.
The purpose of this study is to evaluate patients with pulmonary hypertension and sickle cell disease who have had multiple echocardiograms. Previous studies have shown that an elevated tricuspid jet (TR) regurgitant velocity on echo in this population is a predictor of mortality. This initial data only examined an isolated TR jet velocity. It was presumed that the mortality was related to pulmonary hypertension. It is the aim of this study to retrospectively evaluate patients who have had multiple echocardiograms and to determine if patients who had either a normalization of their TR jet velocity on a subsequent echo or had no evidence of pulmonary hypertension on right heart catheterization had a similar mortality rate to those with persistently elevated TR jet velocity.