Active clinical trials for "Hematologic Diseases"

This study is designed to assess the hypothesis that the lipopolysaccharide (LPS) activity index can be quantified early after transplantation, as well as the the PhosphoLipid Transfer Protein (PLTP) activity and these both biological variables are independent variables for predicting the risk of severe Graft versus Host Disease (GVHD).

This phase II/III trial studies the best approach in improving quality of life and survival after a donor stem cell transplant in older, weak, or frail patients with blood diseases. Patients who have undergone a transplant often experience increases in disease and death. One approach, supportive and palliative care (SPC), focuses on relieving symptoms of stress from serious illness and care through physical, cultural, psychological, social, spiritual, and ethical aspects. While a second approach, clinical management of comorbidities (CMC) focuses on managing multiple diseases, other than cancer, such as heart or lung diseases through physical exercise, strength training, stress reduction, medication management, dietary recommendations, and education. Giving SPC, CMC, or a combination of both may work better in improving quality of life and survival after a donor stem cell transplant compared to standard of care in patients with blood diseases.

Counting and classification of blood cells in a bone marrow smear and peripheral blood smear are essential to clinical hematology. To this date, this procedure has been carried out in a manual manner in the great majority of clinical settings. There is often inconsistency in the counting result between different operators largely due to its manual nature. There has not been an effective and standard method for blood smear preparation and automatic counting and classification. The recent advent of deep neural network for medical image processing introduced new opportunities for an effective solution of this long-standing problem. Numerous results have been published on the effectiveness of convolutional neural network in clinical image recognition task.

This is a 3-phase mixed methods study design. A literature review (Phase 1) has been completed to determine the areas of exploration and to identify challenges faced and the impact of the blood disorder on pediatric patients. Based on Phase 1, Phases 2 and 3, as proposed in this study, will be completed and will include interviews of patients diagnosed with bleeding and thrombotic disorders (phase 2). The interviews will be individual, semi-structured, and consist of open-ended questions to elicit unbiased and in-depth responses to gain an understanding of participant's perspectives on themes predetermined in the study design phase.

For many patients with hematologic disorders and bone marrow failure, hematopoietic stem cell transplantation (HSCT) or cellular therapy (CART) offers a curative treatment option. Patients after SCT or CART have a variable period of immune deficiency in the post-treatment period. The response to vaccination may affect the outcome of the transplant patients. the immunogenicity of vaccines in this immunosuppressed population is uncertain and variable. HSCT and CAR-T recipients are in a COVID-19 high-risk group and conferring immunity by vaccination at the earliest effective timepoint is desirable. At present, the immunogenicity and efficacy of SARS-CoV-2 vaccines in immune-impaired patients including autologous and allogeneic HSCT recipients is unknown. Furthermore, the impact of GvHD and IST on SARS-CoV-2 vaccine immunogenicity is unknown. the investigators aim to evaluate the vaccination response to COVID vaccines after SCT and CART

This is a phase 1/2, open label, single-center study designed to assess the safety and preliminary clinical activity of different belantamab mafodotin doses in combination with daratumumab, pomalidomide, and dexamethasone (DPd) in patients with Relapsed/ Refractory Multiple Myeloma (RRMM) previously treated with one line of therapy who are lenalidomide refractory. This will be a 2-Part study. Part 1 will evaluate the safety of belantamab mafodotin in combination with DPd in 2 cohorts and determine the Recommended Phase 2 Dose (RP2D). In the dose expansion phase (Part 2) an expansion cohort will be treated with the RP2D. The expansion cohort will randomize participants (1:1) in two groups to evaluate two alternate dose modification guidelines for corneal AEs. Part 2 will further evaluate the safety and assess the preliminary clinical activity of the belantamab mafodotin RP2D in combination with DPd. Overall, approximately 48 participants will be enrolled in the study. Participant follow-up will continue up to 3 years after the last participant is randomized. The estimated accrual period will be 12 months corresponding to an approximate total study duration of 4 years.

This project seeks to perform whole genome sequence (WGS) and whole transcriptome sequence (WTS) analysis on 350 patients with suspected inherited bone marrow failure syndromes and related disorder (IBMFS-RD) in order to increase the genomic diagnostic rate in IBMFS.

PURPOSE: To evaluate the prevalence and prognostic value of sarcopenia in patients diagnosed with hematological cancer diseases.

This is an Investigator-Initiated, phase 2, prospective, open-label study designed to be conducted in six hospitals in Greece. Eligible patients will initially receive an induction phase of six 28-day cycles of isatuximab in combination with bortezomib, cyclophosphamide, and dexamethasone (VCd), followed by a maintenance phase with isatuximab and lenalidomide until disease progression, death, unacceptable adverse events, lost to follow up, or consent withdrawal, whichever occurs first. The study will last for approximately 36 months (follow-up period), starting from the date of the first patient in, to the date of the last patient last visit. The primary objective is to assess the effect of induction treatment with isatuximab in combination with VCd on the renal function of newly diagnosed patients with multiple myeloma and severe renal impairment (RI). The secondary objectives are to evaluate the effect of isatuximab in combination with VCd, followed by lenalidomide maintenance on: Overall response rate, Progression-Free Survival, Time to Response, Duration of Response, Overall Survival, Minimal Residual Disease negativity rate, Safety

Background: Genes tell the body and its cells how to work. Familial platelet disease (FPD) or FPD with associated malignancies (FPDMM) is caused by a variant in the gene RUNX1. People with this disease may have problems with their blood and bleed for a long time when they are injured. Researchers want to learn more about RUNX1 variants and FPD. Objective: To learn more about FPD in people with RUNX1 variants to lead to better diagnosis, monitoring, and treatment. Eligibility: People any age with a suspected or confirmed RUNX1 variant People who have a family member with the variant Design: All participants will be screened with a phone call and a blood, saliva, or cheek cell sample. Participants with a suspected or confirmed variant will have 1 visit. It will last about 2 days. They will then have visits at least once a year. Visits will include: Medical history and physical exam Blood tests or saliva sample Possible skin biopsy: A small piece of the participant s skin will be removed. Bone marrow aspiration or biopsy: The participant s bone marrow will be removed by needle from a large bone such as the hip bone. Possible apheresis: Blood will be removed from the body and certain blood cells will be taken out. The rest of the blood is returned to the body. Between visits, participants with a suspected or confirmed variant will keep a diary of disease symptoms and signs. Samples from all participants may be used for genetic testing