View clinical trials related to Anemia, Sickle Cell.
Filter by:Sickle cell disease (SCD) is often referred to as a hypercoagulable state. However, the contribution of coagulation activation to the pathogenesis of SCD remains uncertain. Pulmonary hypertension (PHT) is a common complication associated with significant morbidity and mortality. Autopsy studies of SCD patients with PHT show evidence of in situ thrombosis involving pulmonary vessels, similar to findings in non-sickle cell patients with PHT. Anticoagulation has been reported to be of benefit in non-sickle cell patients with PHT. With the evidence of increased coagulation activation in SCD, PHT represents a clinical endpoint that may be used to evaluate the contribution of coagulation activation to the pathophysiology of SCD. The investigators hypothesize that increased thrombin generation, as well as platelet activation are central to the pathophysiology of SCD and contribute to the occurrence of several SCD-related complications, including PHT. As a consequence, treatment modalities that down-regulate thrombin generation would be expected to delay the progression of PHT and result in improved survival in patients with SCD.
This study will determine if administration of sodium nitrite is safe and can improve small vessel blood flow and tissue oxygenation when given as an additional treatment in patients with acute vaso-occlusive crisis (pain crisis) associated with sickle cell disease.
Patient-Controlled Analgesia (PCA) means that the patient is in control of his/her pain medicine. In this study two (2) different treatment plans of Patient-Controlled Analgesia will be used to treat people with sickle cell disease who are admitted to the hospital for a pain crisis. The purpose of this study is to find out if one plan is better than the other in controlling sickle cell pain. If you are eligible for the study, you will be assigned by chance (like flipping a coin) to either get a higher continuous amount of the pain medicine with a smaller amount for pain as you need it, OR to get a smaller continuous amount of pain medicine with a larger amount of pain medicine as you need it. You or your study doctor can not choose which plan you receive, and you will not be told which one you have been assigned to. The doctors and nurses taking care of you will know which plan you are assigned to so they can safely and effectively take care of your pain. Some members of the study team will not know which plan you are on. We will give you morphine sulfate or hydromorphone (dilaudid) for your pain. These medicines are approved by the Food and Drug Administration (FDA) and have been used for a long time to relieve pain. If you have been treated for pain before with hydromorphone (dilaudid) and you prefer it to morphine, then you may choose to get it during the study. If you have not received hydromorphone (dilaudid) before or you do not have a preference then you will be given morphine for pain. The pain medicine will be given through the IV in your arm. You will receive morphine or hydromorphone continuously through the IV and will also be able to use the PCA machine to give yourself extra pain medicine as you need it for pain. You will need to push a button to give yourself extra medicine for pain. The amount of pain medicine you get on these plans is based on how much you weigh.
This research is being done to see if the drug sildenafil (Viagra) has an effect on the frequency of recurrent priapism and the quality of life in males with sickle cell disease.
The use of oral ibuprofen combined with Opioid (Morphine or Diamorphine) administered through patient controlled analgesia (PCA) will be clinically effective for acute pain crisis in adults with sickle cell disease (SCD).
The investigators plan to obtain skin and blood samples from healthy volunteers and patients with a benign, inherited hematologic disease to use for research to use homologous recombination to correct β-globin gene mutations in therapeutically useful cells, like autologous induced pluripotent stem cells from sickle cell anemia patients.
This study will evaluate the safety of eptifibatide in sickle cell patients and how well it works during the course of painful crises. The overall hypothesis that we seek to test is that increased platelet activation and the resultant inflammatory responses are important contributors to the problems of sickle cell disease. Sickle cell disease has been referred to both as a condition associated with increased risk of blood clots and increased inflammation. A painful crisis represents the most common cli nical problem in sickle cell disease, but the treatment of these crises remains inadequate.
This study is designed to assess the safety, tolerability, and activity of TRF-1101 on microvascular blood flow, vascular endothelial injury, and vasoocclusive pain associated with sickle cell disease.
The purpose of this research is to better characterize the components and mechanisms of the immune systems of persons with sickle cell disease who have had a kidney transplant and are immunosuppressed. If we can improve our scientific understanding of the fundamental mechanisms involved in patient outcomes, we can potentially maximize the benefits that we seek from transplantation in sickle cell patients with end stage renal disease.
Acute pain episodes associated with sickle cell disease (SCD) are very difficult to manage effectively. Opioid tolerance and side effects have been major roadblocks in our ability to provide these patients with adequate pain relief. This pilot study is designed to examine the safety and feasibility of using ketamine, an N-methyl-D-aspartate (NMDA) receptor antagonist, in the inpatient seeing with children and adolescents who have sickle cell vasoocclusive pain. Previous research suggests that in subanesthetic doses, ketamine may be able to prevent the development of opiate tolerance and facilitate better pain relief with lower opiate doses, allowing for less respiratory depression, less sedation, easier ambulation, less deconditioning, shorter hospital stays, and better quality of life. The goal of this pilot study is to evaluate the safety and feasibility of using a continuous infusion of ketamine, in conjunction with opiates, in the inpatient setting for sickle cell vasoocclusive pain. It is hypothesized that using a low dose ketamine infusion in conjunction with opiates will be a safe and feasible practice for the treatment of sickle cell pain.