View clinical trials related to Leukopenia.
Filter by:This is an open-label, multicenter study exploring the efficacy of ivosidenib in patients with clonal cytopenia of undetermined significance (CCUS) with mutations in IDH1. The purpose is to establish proof of principle that ivosidenib is well-tolerated and potentially efficacious in improving blood count abnormalities in these patients. The study will also be offered in a decentralized, remote structure to patients.
This is a phase II pilot study designed to assess the safety and efficacy of danazol for treatment of cytopenias in patients with CPC A/B cirrhosis. Subjects with or without telomere mutations and/or shortened telomeres will be treated with danazol 600 mg per day by mouth for a duration of 24 months. The goal will be to treat a total of 10 patients.
Immune-related hematocytopenia is a type of immunity Inflammatory cytopenia-mediated diseases, hormones and immunosuppressants are its first-line treatment. However, conventional immunosuppressants are ineffective or have a high recurrence rate. And some patients are not effective for these treatments, due to infection of blood cells, bleeding, decreased quality of life, and even severe death. There is currently no effective method for such patients. This study intends to recruit IRIC patients, give cord blood infusion, observe its efficacy and safety, and detect changes in inflammation-related indicators before and after treatment. There are no relevant reports at China and abroad. This study can provide new treatment options for patients with IRIC.
A Phase 1, open-labeled, single-dose, one-sequence, one-period, 3-part study to investigate the absorption, metabolism, excretion, absolute bioavailability, and immunogenicity of GX-I7 in healthy volunteers
Background: Clonal Hematopoiesis of Indeterminate Potential (CHIP) is a change in a person s DNA that can increase a person s risk of developing blood cancers or cardiovascular disease. CHIP occurs mostly occurs in older people. Clonal cytopenia of undetermined significance (CCUS) occurs when one or more blood cell types is lower than it should be and is associated with a change in their DNA. Researchers want to learn more about how CHIP and CCUS progress. Objective: To examine the natural history of people in a study of CHIP and CCUS to (1) verify the association of myeloid somatic mutations with atherosclerosis and blood cancers, and (2) find new potential clinical associations. Eligibility: Adults 18 and older with CHIP with a somatic pathogenic variant associated with blood cancers. Adults with CCUS are also needed. Design: Potential participants will be screened with gene testing. For this, they will give a blood sample. They will also be enrolled in NHLBI screening protocol #97-H-0041. Those who pass this screening will visit the NIH Clinical Center for more screening tests. For this, they will give a blood sample. They will have a physical exam. They will give their medical history. They may give a urine sample. Those with CCUS will have bone marrow taken. Eligible participants will give blood and urine samples. Their heart activity will be monitored and tested. The arteries in their neck will be assessed using ultrasound. They will have liver and heart scans. They will have a bone mineral density scan. They will have lung function tests. They will have the inside of their cheek swabbed or have a skin punch biopsy. They will have the option to have advanced scans done of their heart and full body but this is not required. Participants will have yearly follow-up visits for 10 years. They will repeat the above procedures every 1-3 years depending on the procedure.
Background: CTLA4 stands for cytotoxic T-lymphocyte antigen-4. It is a protein the body makes naturally to check its immune system from attacking itself. Some people don t produce enough CTLA4 protein, causing problems due to overactive immune system such as big spleens, repeated lung infections, breathing problems, stomach and intestine symptoms as well as inflamed brain and nerve problems. Many have problems with their bone marrow causing low numbers of blood cells like platelets, red blood cells or white blood cells, which is called cytopenia. Researchers want to see if the drug abatacept can treat cytopenias by replacing the missing protein CTLA4. Objective: To see if abatacept is safe and helps treat cytopenias caused by CTLA4 deficiency. Eligibility: People ages 8-65 years who have CTLA4 deficiency with cytopenia Design: Participants will be screened with medical history, medication review, physical exam and blood and urine tests. They will continue their current medications and may start taking antibiotics daily. Participants will receive either abatacept or placebo through a vein for 6 months. The study team will not know if you are receiving the study drug or the placebo Women who can become pregnant must agree to use birth control measures. Men who get someone pregnant during the study will be asked to collect information and have the partner contact the study team. Participants will undergo the following procedures before starting the study and at the completion: - radiology scans of body and brain - heart and lung function tests - Bone marrow examination by a needle inserted into the hip bone to remove a small amount of tissue to study. - Participants may have a small camera on a long, thin tool passed down the throat into the stomach and small intestine for evaluation of their gut. - Questionnaires about their disease, symptoms and quality of life Over 6 months, participants will have regular study visits and get 8 doses of the study drug or a placebo by intravenous injection. They will repeat some of the same tests done earlier at the end of the study at assess response. About 1 month after the last study drug visit, participants will have a final study visit. Some participants may join a treatment extension for the study drug abatacept with no placebo. They will sign a separate consent form for this.
Efficacy of BCR Inhibitors in the Treatment of Autoimmune Cytopenias Associated with Chronic Lymphocytic Leukemia (CLL): A Retrospective Analysis of the French Innovative Leukemia Organization (FILO)
10% of the cases referred to the specialist diagnostic haemato-pathology service at RMH are for cytopenias. The hypothesis to be tested is that a proportion of patients with idiopathic cytopenias have mutations in myelodysplasic syndrome (MDS)-associated genes. The investigators will sequence a panel of known MDS-associated genes in patient material (bone marrow and blood) that is sent routinely to the diagnostic service where conventional techniques have failed to establish a clear diagnosis. 200 patients with idiopathic cytopenia will be followed up to determine their survival, blood counts and development of acute leukaemia and other haematological malignancies. The clinical outcomes will be correlated with any mutations detected.
This clinical trial tests next generation sequencing (NGS) for the detection of precursor features of pre-myeloid cancers and bone marrow failure syndromes. NGS is a procedure that looks at relevant cancer associated genes and what they do. Finding genetic markers for pre-malignant conditions may help identify patients who are at risk of pre-myeloid cancers and bone marrow failure syndromes and lead to earlier intervention.
NUDT15 R139C was comfirmed to be associated with thiopurine-induced leukopenia inflammatory bowel disease (IBD) cohort.The present study aim to explor the following questions:can optimizing thiopurine dose by NUDT15 genotype reduce thiopurine-induced leucopenia?What is the influence of this optimizing strategy on clinical outcome?Thus,we conduct a randomised controlled study.Subject in the conventional group detect NUDT15 genotype before thiopurine use and optimise dosage according to the genotype.While the subjects in the control group follow the conventional monitor strategy.The primary endpoint was the rate of leukopenia.The secondary endopoint was the efficacy of thiopurine.The follow up duration was 1 year.