View clinical trials related to Sickle Cell Disease.
Filter by:Sickle cell disease is one of the most common genetic diseases in the world. (1) It is characterized by the production of abnormal hemoglobin mainly responsible for vaso-occlusive clinical manifestations and chronic hemolysis with anemia. (2) It is therefore a chronic disease with major acute complications, such as acute chest syndrome. The treatment for this syndrome will be based on oxygenation, hydration and analgesia. At the physiotherapy level, we will have an action on the prevention and treatment of the syndrome by incentive spirometry. (3,4) In fact, it is currently the only physiotherapy treatment that has proven its effectiveness and is recommended for sickle cell patients. (3) As part of prevention, it is recommended to prescribe incentive spirometry during vaso-occlusive crisis. It has been shown to reduce the risk of atelectasis and significantly limit the risk of developing ACS. (5) In treatment, it makes it possible to regain normal chest amplification and therefore to allow ventilation of unventilated areas. (3.4) However, in order to increase therapeutic efficacy, patient compliance is essential. Adherence to treatment is a major problem in chronic diseases. Currently, it is estimated that 80% of patients with chronic conditions do not sufficiently follow their therapy, which limits the optimization of benefits. (6) This is the case in sickle cell patients, especially with hydroxyurea which is their disease-modifying treatment. Lack of adherence is the most common cause of primary failure of this treatment. During various treatments, we noticed the patients' lack of compliance with spirometry. Indeed, we explained to the patient how to do the incentive spirometry, so that he could practice it several times a day as recommended. When we returned the next day, or after a weekend, most of the time the patients had little or no observance. So I wanted to know if this concerns a majority of patients with sickle cell disease. Indeed, it appears important to assess compliance in these patients in order to improve the effectiveness of treatment and reduce the risk of ACS.
This is a multi-center multi-national rollover study to allow continued access to crizanlizumab for patients with sickle cell disease (SCD) who are on crizanlizumab treatment in a Novartis-sponsored study (parent study) and are benefiting from the treatment as judged by the investigator.
The purpose of this study is to see whether hematopoietic stem cell transplant (HSCT) patients can consistently eat a diet rich in prebiotics. This type of diet may be helpful in maintaining diversity in the gastrointestinal (GI) system and therefore potentially decreasing risk of other GI problems.
This is a multi-center, long-term safety and efficacy follow-up study for subjects with sickle cell disease who have been treated with ex vivo gene therapy drug product in bluebird bio-sponsored clinical studies. After completing the parent clinical study (approximately 2 years), eligible subjects will be followed for an additional 13 years for a total of 15 years post-drug product infusion. No investigational drug product will be administered in the study.
This clinical trial is a Phase 2/3 study that will evaluate the efficacy and safety of etavopivat and test how well etavopivat works compared to placebo to improve the amount of hemoglobin in the blood and to reduce the number of vaso-occlusive crises (times when the blood vessels become blocked and cause pain).
Sickle 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.
Background: 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.
This study seeks to utilize an innovative approach of a single session problem-solving intervention to address psychosocial factors affecting patient outcomes within the pediatric sickle cell population. The study will be a randomized control trial of a single session problem-solving intervention. This original research will investigate the feasibility and efficacy of utilizing a single-session problem-solving intervention to address problems affecting children and families receiving chronic blood transfusions for sickle cell disease in order to: 1) contribute to literature related to single session problem solving interventions with the chronic transfusion sickle cell population and 2) identify a model of sustainable care that reduces the burden of a multiple session intervention and increases access to services. Additionally, this research aims to provide relatively low burden and potentially highly effective intervention into regular care for this population in order to evaluate the feasibility of integrating a single-session problem solving intervention into routine clinical flow, thereby addressing needs more systematically that have been identified by families. Further, this research aims to identify potential utility of medical providers being trained on providing the intervention, which could be part of a future study.
The purpose of this study is to find out how teenagers with chronic pain and sickle cell disease respond to a new training program called Back2Life and get their feedback about how to modify the program to best fit their needs. The Back2Life training program focuses on teaching pain coping skills (also known as cognitive-behavioral therapy). The program teaches skills and strategies that may help teens improve chronic pain management and get back into their everyday activities.
The application of experimental hematopoietic cell transplantation (HCT) therapy in sickle-cell disease (SCD) must strike a balance between the underlying disease severity and the possibility of a direct benefit of the treatment, particularly in pediatric populations. Clinical studies in adults with SCD have focused on interventions that prolong survival and improve the quality of life. Unlike children, adults with SCD are much more likely to have a debilitating complication. As a result, the risk/benefit ratio of HCT is very favorable in adults, particularly if an approach to HCT that defines an acceptable level of toxicity can be established. Whereas hematopoietic stem cell transplantation (HSCT) remains the only curative treatment currently available for patients with SCD, the morbidity, the frequent irreversible damage in target organs and the mortality reported in the natural course of patients with severe SCD are strong incentives to perform HSCTs in younger age groups. For those who lack a matched related donor, CB transplant is an appealing option, but despite been less problematic, CB accessibility related to cell dose of appropriately matched cord blood unit (CBU) remains a significant issue. Through a 7-day culture process of a CBU's hematopoietic stem cell HSCs with the UM171 compound, the total cell dose is increased mitigating this limitation. UM171-CB expansion (ECT-001-CB) allows a greater CB accessibility, the selection of better matched cords that might translate into favourable clinical outcomes as reported in previous trials, including a lower risk of graft-versus-host disease. After CB selection and ex-vivo expansion, ECT-001-CB transplant will follow a myeloablative reduced-toxicity conditioning regimen consisting of rATG, busulfan and fludarabine with doses of all agents optimized to the individual using model-based dosing and will be followed by standard supportive care and GVHD prophylaxis consisting of tacrolimus and MMF.