View clinical trials related to Sickle Cell Trait.
Filter by:The main purpose of this study is to create a longitudinal cohort of those with Sickle Cell Trait (SCT) to better understand the hematologic phenotype for those that carry HbS, assess for differences in those with varying quantities of HbS and assess for potential clinical complications of SCT.
Sickle-cell disease is one of the most common severe monogenic disorders in the world, it results in the synthesis of abnormal hemoglobin (HbS) instead of hemoglobin A. When deoxygenated, the sickle haemoglobin (HbS) polymerizes inducing the sickling of red blood cells (RBCs) and leading to decreased deformability and increased fragility. Therefore, sickle RBCs exhibit a reduced lifespan associated with intravascular hemolysis, hemolytic anemia and low tissue oxygenation. Sickle RBCs, which exhibit abnormal adhesive properties to endothelial cells, can block the microcirculation, causing the occurrence of painful vaso-occlusive crisis (VOC), acute chest syndrome (ACS), acute and chronic organ damage (heart, lung, liver, spleen, kidney, bone…) and shortened life span. A preliminary study performed on RBC from sickle cell patients (Hb SS) has shown an alteration of a parameter measuring the overall deformability of RBCs by evaluating the nature of their movement in a shear flow. This parameter is significantly lower in sickle cell patients in steady state compared to a population of healthy individuals. The parameter is also significantly lower in sickle cell patients during VOC when compared to patient in steady state. The main objective of this study is to evaluate the performance of the method for measuring the deformability of RBCs on an experimental prototype. Measurements will be performed on blood samples from subjects with a normal hemoglobin electrophoretic profile, from heterozygous carriers of sickle cell disease and from patients with sickle cell disease. Samples from paediatric patients will also be tested to study any specificity in comparison to adult subjects.
Sickle cell disease (SCD) is an inherited blood disorder associated with acute illness and organ damage. In high resource settings, early screening and treatment greatly improve quality of life. In low resource settings, however, mortality rate for children is high (50-90%). Low-cost and accurate screening techniques are critical to reducing the burden of the disease, especially in remote/rural settings. The most common and severe form of SCD is sickle cell anemia (SCA), caused by the inheritance of genes causing abnormal forms of hemoglobin (called sickle hemoglobin or hemoglobin S) from both parents. The asymptomatic or carrier form of the disease, known as sickle cell trait (SCT), is caused by the inheritance of only one variant gene from one of the parents. In areas such as Nepal, β-thalassemia (another inherited blood disorder) and SCD are both prevalent, and some combinations of these diseases lead to severe symptoms. The purpose of this study is to determine the accuracy of low-cost point-of-care techniques for screening and detecting sickle cell disease, sickle cell trait, and β-thalassaemia, which will subsequently inform on feasible solutions for detecting the disease in rural, remote, or low-resource settings. One of the goals of the study is to evaluate the feasibility of techniques, such as the sickling test with low-cost microscopy and machine learning, HbS solubility test, commercial lateral-flow assays (HemoTypeSC and Sickle SCAN), and the Gazelle Hb variant test, to supplement or replace gold standard tests (HPLC or electrophoresis), which are expensive, require highly trained personnel, and are not easily accessible in remote/rural settings. The investigators hypothesize that: 1. an automated sickling test (standard sickling test enhanced using low-cost microscopy and machine learning) has a higher overall accuracy than conventional screening techniques (solubility and sickling tests) to detect hemoglobin S in blood samples 2. the automated sickling test can additionally classify SCD, SCT and healthy individuals with a sensitivity greater than 90%, based on morphology changes of red blood cells, unlike conventional sickling or solubility tests that do not distinguish between SCD and SCT cases 3. Gazelle diagnostic device can detect β-thalassaemia and SCD/SCT with an overall accuracy greater than 90%, compared with HPLC as the reference test
The hemoglobinopathy newborn screen (NBS) performed on all neonates in the U.S. allows for early life-saving medical care for infants with sickle cell disease (SCD), an autosomal recessive genetic disorder. Because of its detection method, the NBS incidentally reveals hemoglobinopathy traits including sickle cell trait (SCT). In an effort to uphold the rights of the newborn to their medical data and preserve autonomy in medical decision making, pediatric and genetic society guidelines recommend disclosure and documentation of SCT results during infancy. Despite this guidance, a large guideline-to-practice gap exists: SCT status is grossly under-documented in the pediatric electronic health record and few adults report knowing their SCT status despite universal screening. We plan to evaluate the effect of a toolkit of SCT Documentation and Disclosure (SCT-DD) strategies on documentation and disclosure of SCT by pediatric primary care providers in a 2-arm randomized interrupted time series trial.
The study will use web-based data collection (SCKnowIQ) and intervention delivery strategies enhanced by nudges and tailored boosters in a sample of 430 adult men and women, aged 18-45 yr with SCD (Sickle Cell Disease) or SCT (Sickle Cell Trait), at-risk, and planning within 2 years to have a child free of SCD.
Background: Venous thromboembolism (VTE) includes the abnormal clotting of blood in a deep vein of the upper or lower limbs (deep vein thrombosis) that may travel to and block a blood vessel in the lung (pulmonary embolism). Some people with sickle cell disease (SCD)-a red blood cell disorder-seem to be at greater risk for developing these blood clots. Researchers want to study the blood of people with SCD and VTE as well as healthy people to develop better treatments to prevent blood clots. Objective: To study blood clotting in SCD because it is the most common cause of vascular death after a heart attack or stroke. Eligibility: People ages 18-80 who have SCD (with or without a history of blood clots) or the trait for SCD, and healthy volunteers Design: Participants will be screened with medical history, physical exam, and medical records review. They will give blood samples. Participants will have phone calls either every 3 months or once a year, for 2 years. They will give updates on their health. They may give additional medical records. The phone calls may last up to 30 minutes. If participants have a VTE or pain crisis episode, they may visit the Clinical Center. These visits may last up to 4 hours. They will repeat the screening tests and give blood samples. Some participants may be invited to take part in blood studies. After 2 years, some participants will have a follow-up visit at the Clinical Center. Participation will last for about 2 years.
This study measures the effect of exercise on a variety of biomarkers in blood and urine selected to evaluate the physiological pathways of hemolysis, myolysis, thrombosis, inflammation, and renal function in subjects with sickle cell trait. These pathways have been shown to be associated with adverse events in athletes and warfighters with SCT upon protracted, repeated, strenuous exertion. Changes in biomarkers post-exercise compared to pre-exercise (and compared to healthy controls) suggest activation of the associated pathway(s) which may contribute to exercise-related events in athletes and warfighters and subclinical complications in non-athletes.
Sickle cell disease (SCD) is an inherited blood disorder. Symptoms include acute and chronic complications. Due to progress in SCD care, patients with SCD are living longer than before and we focus more attention in chronic complications. Children with SCD experience worse cognitive functions than healthy children, and fewer is known about cognitive functions in adults. Studies suggest lower cognitive performance in SCD, mostly in executive functions and processing speed, but the biological and anatomical substrates of cognitive decline are not yet well established in SCD. Often times, cognitive impairments and cerebral disorders are not diagnosed and treated in adults with SCD. The main objective of this study is to propose a deep neuropsychological assessment in adults with SCD and cognitive complaints and to highlight links between cognitive functions and clinical, biological and neuroradiological markers. The hypothesis of this study is that cognitive functions are associated with severity of the SCD, with bood abnormalities, with MRI markers and Transcranial Doppler (TCD) markers of cerebrovascular disease. The secondary objective of this study is to validate a brief cognitive assessment tool (BEARNI tool) in adults with SCD. This study is an observational cross-sectional study that will enroll adults with SCD and cognitive complaint.
HSCT is currently the only curative option for SCD but less than 20% of SCD patients have a MD donor available. So far, all curative approaches beyond a MSD HSCT at young age are non-satisfactory. With the lack of a suitable donor for the vast majority of patients, the major question of this trial is, if a haploidentical αß/CD19+ T-cell depleted HSCT can be a valid alternative to a MSD HSCT. The main challenge in non-malignant diseases is to offer a safe and GvHD-free HSCT without rejection.
The heterozygous form of sickle cell disease is clinically asymptomatic. Nevertheless, it was observed that, the sickle cell trait is associated with serious medical complications especially during intense physical efforts. Moreover, the exposure to a hot environment (tropical climate) is suspected to be a determining factor in the occurrence of these medical complications. However, the relationship between sickle cell trait and death during effort is not well established. Furthermore, the cascade of events that usually cause sickle cell crisis such as red blood cells sickling and rhabdomyolysis and which affect microcirculation are not known. Our main objective in this study is to verify whether young healthy active men with sickle cell trait have reactive hyperemia to their hemoglobinemic condition during exercise; to identify the contribution of hot environment on these possible disturbances; and to determine underlying mechanisms. In addition, disturbances in the regulation of glucose metabolism in healthy subjects under hot environment have been reported, marked by a significant increase in postprandial blood glucose. Therefore, this project is also intended to assess the contribution of the disturbance of glycoregulation during exercise under hot environment in active sickle cell trait carriers. The imbalance of pro and anti oxidant agents, the adhesion and inflammation markers will also be evaluated. Results of this study will allow a better understanding of physio-pathological mechanisms leading to vascular accidents during exercise under tropical climate in young healthy sickle cell trait carriers; and to identify physical activity programs and nutritional interventions adapted to patients with sickle cell disease under hot environment.