View clinical trials related to Aplastic Anemia.
Filter by:Patients eligible undergoing total body irradiation as candidates for bone marrow or peripheral stem cell transplant.
In this study, investigators intend to prospectively study treatment-naive AA patients (including SAA and NSAA) who are non-transplant candidates in northern China. Patients with SAA receive ATG+CsA+Herombopag, and patients with NSAA receive CsA+ Herombopag. Investigators explored possible indicators of participants' predictive efficacy and built predictive models. After the participants achieved response, they used a tapering regimen, observed relapse and clonal evolution, and developed a predictive model of relapse.
For elderly patients who cannot tolerate anti-thymocyte globulin (ATG) treatment, the addition of avatrombopag (AVA), which has a slight adverse reaction, can theoretically improve the hematological response rate in elderly patients with non-severe aplastic anemia (NSAA) without significantly increasing adverse reactions. Based on this, this study treated NSAA patients older than 60 with AVA combined with CsA to evaluate the hematological response rate and safety of AVA in the elderly who could not tolerate ATG therapy.
This is a phase 1, prospective, single-arm, open-label study. The aim of this study is to evaluate the transfusion responses of platelet increment by using Daratumumab among aplastic anemia patients with platelet transfusion refractoriness.
This is a multicenter, single-arm clinical study. The objective was to evaluate the efficacy and safety of Avatrombopag combined with IST in very/sever aplastic anemia patients with abnormal liver function or HAAA patients treated for the first time. The design was: Patients received p-ATG for 5 consecutive days (day 1-5), at a dose of 20 mg/kg/day. Cyclosporine 3 mg/kg orally in two divided doses, with cyclosporine trough concentrations maintained at 200-250 ng/ml for 3 months to achieve maximum efficacy, and Avatrombopag, which was administered in the dose of 40 mg orally once daily for a total of 12 weeks. Thirty-nine patients are expected to be enrolled in this study. Evaluation endpoint: complete response rate at 12 weeks of treatment.
Objectives 2.1 Primary objectives 1) To observe and compare incidence and severity of aGVHD and cGVHD between the two arms within 2 years after transplantation. 2) To observe and compare the engraftment rate between the two arms. 3) To observe and compare the incidence of infections between the two arms. 2.2 Secondary objectives 1. To conduct pharmacogenomic assay in CD20 arm(treatment arm) before conditioning and monitor plasma concentration of CD20 dynamically(7d、14d、28d、56d、91d). 2. To monitor levels of B cells in peripheral blood dynamically (+90d、+180d、+270d、+360d、+450d、+540d、+630d、+720d) in all patients. 3. To observe and compare the incidence of PTLD between the two arms. 4. To observe and compare immunoglobulin levels after transplantation in all patients. 5. To evaluate transplant-related mortality. 6. To evaluate the effect on hematopoietic reconstruction.
This Phase I study will determine the safety and optimal dose of expanded autologous Tregs to treat patients with Aplastic Anaemia (AA) (who have failed, or are considered ineligible for IST (immunosuppressive therapy) / other treatments) using expanded autologous T regulatory cells (Tregs) from AA patients at King's College Hospital, that have been prepared at the licensed Good Manufacturing Practices (GMP) production facility at Guy's Hospital, London
This will be a randomized, placebo-controlled trial with a 2x2 factorial design testing the effects of an NAD+ precursor (NR) and exercise on skeletal muscle quality and VO2max in AYA HCT survivors. The primary outcome is the change in muscle strength (isometric knee extension) from baseline to 16 weeks. Key secondary outcomes are the change in muscle strength (ankle plantarflexion) from baseline to 16 weeks, the change in grip strength from baseline to 16 weeks, the change in lower extremity muscle mass from baseline to 16 weeks, the change in muscle OXPHOS capacity from baseline to 16 weeks, and the change in aerobic capacity (VO2 max) from baseline to 16 weeks.
This phase II clinical trial evaluates whether a modified modality of conditioning reduces treatment-related mortality (TRM) in patients who undergo a hematopoietic stem cell transplant (HSCT) for a hematological malignancy. HSCT is a curative therapy for many hematopoietic malignancies, however this regimen results in higher rates of TRM than other forms of treatment. In recent years, less intense conditioning regimens with radiation and chemotherapy prior to HSCT have been developed. Radiation therapy uses high energy sources to kill cancer cells and shrink tumors while chemotherapy drugs like fludarabine and cyclophosphamide work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. This study evaluates whether a two-step approach with lower-intensity regimens of these treatments prior to HSCT reduces the rate of TRM.
This is a prospective hybrid implementation-effectiveness study of a model of care for patients with bone marrow failure syndromes and inherited predisposition to haematological malignancy that includes comprehensive diagnostic genomic evaluation, multidisciplinary case review, provision of clinical care including from clinical haematologists, medical geneticists and genetic counsellors.