iPeer2Peer Program for Youth With Sickle Cell Disease
Sickle Cell DiseaseThe iPeer2Peer Sickle Cell Disease (SCD) study matches youth (12-18 years of age) with SCD to a mentor (trained young adult) who has learned to manage their SCD well, transitioned to adult care, and can support youth participants emotionally and socially. Participants will be randomly assigned one of two groups, either (1) The intervention group: Study group participants are matched with a mentor for 15 weeks, and are expected to have up to ten calls with one another; (2) The control group: This study group will be on a 15 week waitlist to receive a mentor. This study will first assess the feasibility of conducting this research with youth with SCD. Also, this study will assess the preliminary effectiveness of peer mentorship by comparing various health outcomes of the two study groups post-intervention.
Dose-Escalation Study of SCD-101 in Sickle Cell Disease
Sickle Cell DiseaseSickle-Beta Zero ThalassemiaThe purpose of this study is to determine the safety and clinical effects of SCD-101 when given to adults with sickle cell disease.
Safety and Efficacy of Gene Therapy of the Sickle Cell Disease by Transplantation of an Autologous...
Sickle Cell DiseaseThe purpose of this study is to evaluate the Safety and Efficacy of Gene Therapy of the Sickle Cell disease by Transplantation of an Autologous CD34+ enriched cell fraction that contains CD34+ cells transduced ex vivo with the GLOBE1 lentiviral vector expressing the βAS3 globin gene (GLOBE1 βAS3 Modified Autologous CD34+ Cells) in Patients with Sickle Cell Disease (SCD)
Defibrotide in Sickle Cell Disease-Related Acute Chest Syndrome
Sickle Cell DiseaseAcute Chest SyndromeThis study evaluates the safety of defibrotide in subjects with sickle cell disease (SCD)-associated acute chest syndrome (ACS).
Clinical Transplant-Related Long-term Outcomes of Alternative Donor Allogeneic Transplantation (BMT...
Acute Myeloid LeukemiaAcute Lymphoblastic Leukemia5 moreThe purpose of this study is to determine if a search strategy of searching for an HLA-matched unrelated donor for allogeneic transplantation if possible then an alternative donor if an HLA-matched unrelated donor is not available versus proceeding directly to an alternative donor transplant will result in better survival for allogeneic transplant recipients within 2 years after study enrollment.
Safety, Tolerability, Pharmacokinetics, and Pharmacodynamics of Long-term Mitapivat Dosing in Subjects...
Sickle Cell DiseaseHemolytic AnemiaBackground: Sickle cell disease (SCD) is a disorder that causes episodes of acute pain and progressive organ damage. Ways to manage SCD have evolved slowly. Treatments do not always work. Researchers want to see if a drug called mitapivat can help people with SCD. Objective: To test the long-term tolerability and safety of mitapivat (or AG-348) in people with SCD. Eligibility: Adults age 18-70 with SCD who took part in and benefited from NIH study #19H0097. Design: Participants will be screened with a medical history and physical exam. They will give a blood sample. They will have an electrocardiogram to test heart function. Participants will repeat some of the screening tests during the study. Participants will complete 6-minute walk tests to measure mobility and function. They will have transthoracic echocardiograms to measure heart and lung function. They will have dual-energy X-ray absorptiometry scans to measure bone health. They will complete online questionnaires that measure their overall health and well-being. Participants will take the study drug in the form of a tablet twice a day. Participants will keep a study diary. They will record any symptoms they may have. Participation will last for about 54 weeks. After 48 weeks, participants can either keep taking the study drug for 48 more weeks or be tapered off of the study drug to complete the study. Those who are on the study for 1 year will have 10 study visits. Those who are on the study for 2 years will have 14 study visits.
A Blood Stem Cell Transplant for Sickle Cell Disease
Sickle Cell DiseaseSickle Cell Disorder4 moreBlood stem cells can produce red blood cells (which carry oxygen), white blood cells of the immune system (which fight infections) and platelets (which help the blood clot). Patients with sickle cell disease produce abnormal red blood cells. A blood stem cell transplant from a donor is a treatment option for patients with severe sickle cell disease. The donor can be healthy or have the sickle cell trait. The blood stem cell transplant will be given to the patient as an intravenous infusion (IV). The donor blood stem cells will then make normal red blood cells - as well as other types of blood cells - in the patient. When blood cells from two people co-exist in the patient, this is called mixed chimerism. Most children are successfully treated with blood stem cells from a sibling (brother/sister) who completely shares their tissue type (full-matched donor). However, transplant is not an option for patients who (1) have serious medical problems, and/or (2) do not have a full-matched donor. Most patients will have a relative who shares half of their tissue type (e.g. parent, child, and brother/sister) and can be a donor (half-matched or haploidentical donor). Adult patients with severe sickle cell disease were successfully treated with a half-matched transplant in a clinical study. Researchers would like to make half-matched transplant an option for more patients by (1) improving transplant success and (2) reducing transplanted-related complications. This research transplant is being tested in this Pilot study for the first time. It is different from a standard transplant because: Half-matched related donors will be used, and A new combination of drugs (chemotherapy) that does not completely wipe out the bone marrow cells (non-myeloablative treatment) will be used to prepare the patient for transplant, and Most of the donor CD4+ T cells (a type of immune cells) will be removed (depleted) before giving the blood stem cell transplant to the patient to improve transplant outcomes. It is hoped that the research transplant: Will reverse sickle cell disease and improve patient quality of life, Will reduce side effects and help the patient recover faster from the transplant, Help the patient keep the transplant longer and Reduce serious transplant-related complications.
The Feasibility of the PAINReportIt Guided Relaxation Intervention-INPATIENT
Sickle Cell DiseaseStress1 moreThe goal of this research study is to improve the self-management of pain, stress, and cognitive/affective symptoms that may result in adult inpatients with sickle cell disease (SCD) by determining the feasibility of a self-management guided relaxation (GR) stress reduction intervention using a tablet-based mobile device. Currently, opioid analgesics are primarily used to treat SCD pain while self-managed behavioral modalities such as GR, are rarely used, particularly, in inpatient settings. Little is known about the effects or mechanisms of GR on pain, stress, and cognitive/affective symptoms in adults with SCD hospitalized with pain. Emerging evidence from the hypothalamic pituitary adrenal (HPA) axis theory offer insights for understanding the mechanisms. Adding GR as a supplement to analgesic therapies will address the dearth of self-management strategies for controlling pain in SCD. GR is a simple and cost-effective non-drug intervention that could reduce pain and stress in inpatients with SCD. GR is an intervention where inpatients with SCD are directed to listen to and view audio-visual recordings while they visualize themselves being immersed in that scenario.
Gene Transfer for Patients With Sickle Cell Disease
AnemiaSickle CellThe purpose of this Phase 1/2 study is to determine the feasibility and safety of stem cell collection and gamma-globin gene transfer, and success of gene correction in subjects with sickle cell disease
Sickle Cell Disease (SCD) Bone Pain Study
Sickle Cell DiseaseSickle Cell Anemia8 moreA prospective study to determine how low bone mineral density and/or vertebral compression fractures associate with pain in adults with sickle cell disease