Motivations, Expectations, and Decision-making of Sickle Cell Patients in Clinical Research
Sickle Cell DiseaseBackground: Sickle cell disease is an inherited blood disorder. People with this disease have a problem with their hemoglobin. That is a protein in red blood cells that carries oxygen in the body. Some people with this disease are enrolled in research at NIH. Researchers want to learn more about the thoughts and opinions of those people. This may improve the way researchers explain clinical studies, risks, and benefits to people with the disease. Objective: To learn about the motivations, decisions, and experiences in clinical research of people with sickle cell disease. Eligibility: Adults ages 18 and older who have sickle cell disease. They must be in an NIH study on this condition. They must have been invited to join either a gene therapy or peripheral blood stem cell transplantation study. Design: Participants will have 1 interview. It will be done in a quiet room in the NIH Clinical Center or by video call. It will take about 60 minutes. The interview will be audio-recorded if the participant agrees. Participants will be asked about: Their experiences with and thoughts on sickle cell disease Their decision to participate in clinical research Factors that may have affected their decision to participate. These may include family, disease history, or faith. Participants may complete a few brief questionnaires.
Coordinated HEalthcare for Complex Kids
AsthmaDiabetes Mellitus2 moreThe University of Illinois Health and Health Sciences System (UI Health) developed an integrated care management quality improvement model designed to provide comprehensive care coordination for Medicaid insured minority children and young adults with chronic health conditions living in Chicago. This program, called CHECK (Coordinated HEalthcare for Complex Kids), targeted children and young adults with chronic disease.
Study of Thiotepa and TEPA Drug Exposure in Pediatric Hematopoietic Stem Cell Transplant Patients...
Hematologic MalignanciesNonmalignant Diseases6 moreThiotepa is a chemotherapy drug used extensively in bone marrow transplantation. Thiotepa is a prodrug that undergoes metabolic conversion in the liver by CYP2B6 and CYP3A4 to its primary active metabolite, triethylene phosphoramide (TEPA). The goal of this study is to determine what causes some children to have different drug concentrations of thiotepa and TEPA in their bodies and if drug levels are related to whether or not a child experiences severe side-effects during their bone marrow transplant. The hypothesis is that certain clinical and genetic factors cause changes in thiotepa and TEPA drug levels in pediatric bone marrow transplant patients and that high levels may cause severe side-effects.
Best Noninvasive Predictor of Renal Function in Assessing Adult Sickle Nephropathy
Sickle Cell DiseaseBackground: Sickle cell disease is a common inherited blood disorder. Kidney disease is a major cause of problems in people with sickle cell disease. In order to identify kidney problems early and stop the progression of kidney disease, doctors need the most accurate tests to check kidney function. Researchers hope to understand more about how to test for kidney disease in people with sickle cell disease. Objective: To determine which of two different lab tests is the best to measure kidney function in adults with sickle cell disease. Eligibility: People 18 years and older who have sickle cell disease Design: Participants will be screened with a medical history and blood tests. Participants will have up to 3 visits. Participants will collect their urine in a special container over 24 hours. At the first visit, participants will have blood tests. They will bring their container of urine to the visit. They will have an iothalamate test. For the test, they will get a catheter: a small tube will be inserted into a vein. A special contract agent will be injected into the vein. Blood will be collected over the next 4 hours to test kidney function. Participants will return the next day for a second visit. They will have blood tests. They will have an MRI. For the MRI, they will like on a table that slides into a machine that takes pictures of the kidneys. They may have the MRI in a third visit. ...
Molecular Phenotyping of Asthma in Sickle Cell Disease
Sickle Cell DiseaseAsthmaAsthma and sickle cell disease each are serious medical problems. People with asthma have difficulty breathing, wheeze (a whistling noise when breathing), cough, produce sputum or phlegm, and have inflammation (swelling, irritation, redness) and narrowing of the bronchial tubes. When a person has both asthma and sickle cell disease together, more serious medical problems can occur such as having acute chest syndrome and pain episodes more often. It is sometimes hard to diagnose asthma in a person with sickle cell disease because sickle cell disease can also cause lung problems. The purpose of this study is to see if the investigators can better understand asthma when it occurs in a person who has sickle cell disease. The investigators will do this by taking a blood, urine, and saliva sample. The blood and urine samples will be analyzed for chemicals and DNA (genes). Certain genes can cause patients to have sickle cell disease or asthma. The investigators will use the saliva sample for future studies to compare the results from the blood testing with saliva. The investigator's long-term goal is to make sure people who have asthma and sickle cell disease are getting the best asthma treatments. The investigator's hypothesis is that the analysis of the blood, urine and saliva using a method called, metabolomics, may identify a unique asthma signature in children with sickle cell disease which may lead to targeted treatments.
Genetics and Pain Severity in Sickle Cell Disease
GenotypePain3 moreBackground: - Pain is the most common symptom of sickle cell disease. Episodes of severe sickle cell pain are known as "crises." High rates of pain crises are associated with a higher risk of early death. Some people with sickle cell disease have many severe pain crises while others experience fewer crises. This difference in pain crisis may be caused by sensitivity to pain. People with high sensitivity to pain may have more pain crises. Many factors, including a person's genetic makeup, determine sensitivity to pain. Comparing genetic information from people with sickle cell disease and healthy volunteers may provide more information on pain and sickle cell disease. Objectives: - To study genetics and pain sensitivity in sickle cell disease. Eligibility: African or African American individuals at least 18 years of age with sickle cell disease. Healthy African or African American volunteers at least 18 years of age. Design: Participants will be screened with a medical history and physical exam. They will also provide blood and urine samples. Participants will have the following tests: Quantitative sensory testing to measure sensitivity to pressure, heat, cold, and mechanical pain. EndoPat test to measure blood vessel function and reaction. Questionnaires about mood, evidence of depression, pain, quality of sleep, and sleep disturbances. Measures of daily pain, whether or not related to sickle cell disease. After the first visit, those in the study will have monthly study visits for 6 months. The above tests will be repeated at these visits.
Assessing Function in Pediatric Patients With Sickle Cell Disease
Sickle Cell DiseaseThe purpose of this study is to evaluate the FIM™ as a measure of daily function in children with sickle cell disease hospitalized with vasoocclusive pain. Currently, the standard for pain assessment is a rating of pain intensity, as determined by observation (for younger children) or self-report (for older children and adolescents). However, these measures of pain intensity are not effective in recurrent or chronic pain states, and in sickle cell disease in particular. Pediatric patients who are hospitalized with vasoocclusive pain often do not report a decrease in pain intensity; however, other indications of clinical status, such as ambulation, less use of opiates from the patient-controlled analgesia (PCA) pump, increased food intake, and transition to oral pain medication, signify that the patient may be improving. As a result of our inability to get an accurate picture of the patients' condition, we would like to have a summary of improvement that would reflect these changes in clinical status and reflect the reduced impact of sickle cell pain on the patient's life. In this study, we plan to evaluate a standardized functional assessment measure in pediatric patients with sickle cell disease. It is hypothesized that FIM™ scores will correlate with other indicators of clinical status, such as movement, quality of sleep, use of IV opiates from the patient-controlled analgesia (PCA) pump, and use of intravenous vs. oral pain medications. It is also hypothesized that the FIM™ will demonstrate adequate responsiveness to change in functional status within a 3-7 day hospitalization by a progressive increase in scores and associations with other indicators of clinical improvement.
Pain in Sickle Cell Epidemiologic Study
Blood DiseaseAnemia1 moreTo measure the variability in pain and response to pain in sickle cell disease, and to build multivariate models to explain both patients' pain and their response to pain, especially, utilization of health care.
Cerebrovascular Involvement in Sickle Cell Disease - Comprehensive Sickle Cell Center
AnemiaSickle Cell2 moreTo continue studies on the two major neurological complications of sickle cell disease (SCD): namely, stroke and chronic encephalopathy.
Retrospective Real World Oxbryta® Data Collection and Analysis Study
Sickle Cell DiseaseThe aim of this study is to collect and analyze retrospective data on Oxbryta in a real-world setting. This is a multicenter, retrospective data collection and analysis study to characterize health outcomes in approximately 300 patients with SCD who have been treated with Oxbryta as part of their usual care. Any patient with SCD who received Oxbryta treatment for at least 2 weeks as part of their usual care according to the Oxbryta US Prescribing Information (USPI) is eligible to participate. Study data from 1 year before and up to 1 year after the first dose of Oxbryta will be entered in case report forms (CRFs) via an electronic data capture (EDC) system by the study staff.