Hydroxyurea Therapy for Neurological and Cognitive Protection in Pediatric Sickle Cell Anemia in...
Sickle Cell Anemia in ChildrenWorldwide, an estimated 200,000 babies are born with Sickle Cell Anemia (SCA) annually. Affected children suffer chronic ill health with some having frequent hospitalization. The patients are also at a high risk of brain injury arising from small and large cerebral blood vessel damage in SCA, also called sickle cell vasculopathy (SCV). SCV is associated with the high risk of stroke. Such injury may manifest with neurological and cognitive impairment. An abnormal blood flow to the brain, as measured by a Doppler Ultrasound scan is a known risk factor for stroke. The hypothesis is that hydroxyurea therapy will prevent, stabilize or improve SCV and its effects. The study is an open label, single arm clinical trial to test the impact of hydroxyurea treatment in 270 children with SCA starting at ages 3-9 years. Following baseline assessments, all participants will begin hydroxyurea therapy starting at about 20mg/kg/day. Changes in the frequency and severity of each test (neurological and cognitive tests and cerebral blood flow velocity) will be compared with their baseline tests (prior to hydroxyurea) by repeating these tests at 18 and 36 months. In a randomly selected subset of 90 participants, an evaluation of the impact of hydroxyurea on structural brain vascular injury using magnetic resonance brain imaging (MRI) and magnetic vessel imaging ,also called angiography (MRA) at baseline and at 36 months. Lastly, an assessment of changes to biomarkers of anemia, inflammation and malnutrition from before and during hydroxyurea therapy and determine their relationship to the outcomes. The proposed intervention with hydroxyurea is the first Africa-based trial to broadly prevent or ameliorate manifestations of SCV.
ESCORT-HU Extension: European Sickle Cell Disease Cohort - Hydroxyurea - Extension Study
Sickle Cell DiseaseAs safety information pertaining to the long-term use of HU remains incomplete in spite of the first safety study (ESCORT-HU), an extension of the latter is proposed. ESCORT-HU Extension study aims at evaluating the long-term safety of Siklos® focusing on some questions regarding its safety when used in current practice in adults and paediatric patients treated with Siklos® and followed for up to 5 years. The study will focus on the following concerns : occurrence and incidence of malignancies, leg ulcers, male fertility impairment and serious unexpected AEs causally related to Siklos®.
Cooperative Assessment of Late Effects for SCD Curative Therapies
Sickle Cell DiseasePulmonary Disease2 moreSickle Cell Disease is one of the most common genetic diseases in the United States, occurring in approximately 1 in 400 births. Approximately 100,000 individuals are diagnosed with SCD in the United States. Mortality for children with SCD has decreased substantially over the past 4 decades, with >99% of those born in high resource settings, including the United States, France, and England, now surviving to 18 years of age. However, the life expectancy of adults with SCD is severely shortened. Dysfunction of the heart, lung, and kidney is directly associated with decreased life expectancy. With the variety of curative therapies that are now available for SCD, long-term health outcomes studies are time-sensitive. As of now, efforts to determine long-term health outcomes following curative therapies for SCD have been limited. Though curative therapies initially should provide a cure for symptoms of SCD, there is the risk of late health outcomes to consider. Defining health outcomes following curative therapy is essential to improve personalized decision-making when considering curative versus disease-modifying therapeutic options. The primary goal of this study is to determine whether curative therapies for individuals with SCD will result in improved or worsening heart, lung, and kidney damage when compared to individuals with SCD receiving standard therapy. The investigators will also explore whether certain genes are associated with a good or bad outcome after curative therapy for SCD.
The Predictive Capacity of Machine Learning Models for Progressive Kidney Disease in Individuals...
Sickle Cell DiseaseKidney Diseases1 moreThis is a multicenter prospective, longitudinal cohort study which will evaluate the predictive capacity of machine learning (ML) models for progression of CKD in eligible patients for a minimum of 12 months and potentially for up to 4 years.
Sickle Cell Disease Biofluid Chip Technology (SCD BioChip)
Sickle Cell Disease'Sickle-shaped' anemia was first clinically described in the US in 1910, and the mutated heritable sickle hemoglobin molecule was identified in 1949. The pathophysiology of SCD is a consequence of abnormal polymerization of sickle hemoglobin (HbS) and its effects on red cell membrane properties, shape, and density, and subsequent critical changes in inflammatory cell and endothelial cell function. Our goal is to understand the impact of CMA abnormalities in SCD, by interrogating a number of recognized interactions in a range of clinical phenotypes. To date, correlative studies in SCD, by us and others, have range between clinical reports, based on tests, interventions, and chart review of individuals or groups of individuals and, at the other extreme, identification of functional gene polymorphisms based on population studies. The investigators wish to augment these studies through a systematic examination of cellular membrane properties and activation status. Of hematologic disorders, SCD may be unusually susceptible to such an examination.
Lidocaine Intravenous in the Emergency Department For Sickle Cell Crisis
Sickle Cell DiseaseSickle Cell Crisis2 moreSickle cell crisis continues to be a frequent presentation to emergency departments. Patients presenting will often require immediate treatment for their pain and often times this will include opioids. The opioid epidemic has cost thousands of lives; and continues to be a significant problem posing several challenges when treating patients presenting with sickle cell disease. Primarily, opioids remain the mainstay of treatment for these patients and the push to address the opioid crisis may present challenges for adequate opioid administration in patients suffering from a sickle cell crisis while hospitals find ways to curb the opioid crisis overall. Opioid treatment for patients in acute vaso-occlusive crisis has significantly contributed to quality of life and life expectancy of patients with this diagnosis. Measures should continue to attempt to administer a multi-model approach to sickle cell patients to minimize the morphine milligram equivalents in these patients while also successfully addressing the patient's pain. IV lidocaine is a pain medication that has been evaluated in several painful experiences, such as in renal colic. A few case reports have shown IV lidocaine use in sickle cell can be a potential effective adjunct medication to opioids to treat pain and reduce further opioid requirements. Currently, no prospective controlled trial exists to evaluate the true benefit of IV lidocaine in this population. Our study aims to evaluate IV lidocaine as an adjunct to opioid treatment in the emergency department to determine if improved pain is achieved and if there is a reduction in overall morphine milligram equivalents throughout the emergency department visit.
Oxbryta® Product Registry An Observational Study Designed to Evaluate the Effect of Oxbryta in Individuals...
Sickle Cell DiseaseThis registry is an observational study designed to evaluate the effect of Oxbryta in individuals with SCD in a real-world setting.
Observational Study to Deeply Phenotype Major Organs in Sickle Cell Disease After Curative Therapies...
Mortality in Sickle CellSickle Cell Cardiopulmonary Complications3 moreBackground: People with sickle cell disease (SCD) have problems with their heart, brain, kidneys, liver, and lungs as they age. These problems may improve after transplant. Researchers want to learn how and why this happens. Objective: To study the benefits of treatments that are intended to cure SCD. Eligibility: People aged 18 and older with SCD who are either receiving curative therapy in the next 3 months or don t have any plans to receive a curative therapy in the next 2 years. Design: At their first visit, participants will be screened with their medical history and a physical exam. Participants will then have a baseline visit. This will take about a week to complete and will include: Blood and heart tests MRI of the brain, heart, and lungs. Participants will lie on a bed that will move into the MRI scanner. Special padding may be placed around their head to keep it still. Interactive games. Participants will complete computer games that test memory, attention, problem solving, language, spatial orientation, processing speed, and emotion. Questionnaire rating quality of life Iothalamate test. An IV catheter will be placed into a vein. A contrast agent will be injected through the IV. Blood will then be collected at different time points. Lung function tests and a 6-minute walk test Vibration controlled transient elastography. A probe placed on the abdomen will measure liver scarring. DOS test. A light attached to the finger or toe will measure blood oxygen. Participants will have an end-of-study visit about 2 years after their baseline visit. This will include repeats of the baseline visit tests.
Minocycline In Neurocognitive Outcomes - Sickle Cell Disease
Sickle Cell DiseaseCognitive Impairment5 moreSickle cell disease (SCD) is a common, inherited blood disorder that primarily affects people of African Ancestry. It has a lot of complications including neurological complications. The neurological complications of SCD are particularly devastating and lead to cognitive decline even in the absence of overt brain injury. In such cases, it is thought that inflammation in the brain maybe partly responsible for the cognitive decline. The main reasons for this research study are to see 1) how safe and 2) how well minocycline works to try to stop/reverse cognitive decline in people with SCD. People with SCD are at risk for changes in their brain over time that can cause problems with learning, memory, and attention. Part of the reason for this is inflammation within the brain. Minocycline may be able to stop these brain changes by stopping this brain inflammation. Minocycline is a second-generation tetracycline antibiotic that has been shown to both inhibit neuroinflammation and improve cognitive function in a variety of neurodegenerative and psychiatric disorders but has not yet been studied in SCD. We are proposing here, a pilot double-blinded, randomized controlled trial to examine the tolerability and early efficacy of minocycline in adults with SCD at two dosing regimens (200 mg and 300 mg daily) versus placebo over one year. Participants will undergo a neuropsychological exam using the NIH Toolbox Cognition Battery at both study enrollment and exit (after one year) to assess for changes/stability of cognition. Participants will receive monthly phone calls/text messages to assess for adverse events and will be seen every three months for pill counts and routine laboratory monitoring. The primary outcome will be a comparison of adverse events across the two dosing strategies versus placebo. Early evidence for cognitive benefit will also be assessed from the results of the NIH Toolbox.
Sickle Cell Disease Obstetric Multi-Disciplinary Care Programme
Sickle Cell DiseasePregnancy RelatedTo implement an effective but low-cost strategy to decrease SCD maternal and perinatal mortality in Ghana. The objectives are to 1) assess the impact of a multidisciplinary SCD-obstetric team for decreasing mortality across three hospital sites in Ghana. 2) assess the implementation fidelity for 2a) preventing and 2b) treating acute chest syndrome in pregnant women with SCD admitted to the hospital. 3) standardize an ultrasound protocol for the prospective monitoring of fetal growth among pregnant women with SCD.