View clinical trials related to Cytopenia.
Filter by:Autoimmune cytopenias resistant to treatment are among the most common clinical manifestations observed in patients with congenital alterations of the immune system, such as primary immunodeficiencies (PI). The exact contribution of immune system alterations to the pathogenesis of autoimmune cytopenias has not yet been fully elucidated. Moreover, conventionally employed therapeutic strategies often fail, leading to increased healthcare costs, high morbidity, and even mortality. Therefore, there is a need to establish clinical guidelines for diagnosis and to identify early biomarkers capable of identifying individuals responsive to therapy. Thus, a systematic approach to the study of such pathologies will allow for the identification of early biomarkers and facilitate the development of targeted therapeutic strategies
The primary purpose of this multi-centre, randomized, placebo-controlled, double-blind phase II study is to investigate if oral vitamin C may change the biology of low-risk myeloid malignancies; i.e., clonal cytopenia of undetermined significance (CCUS), low-risk myelodysplastic syndromes (MDS), and chronic myelomonocytic leukemia (CMML)-0/1 by reversing the epigenetic changes characteristic of these disease entities. The epigenetic regulator TET2 is the gene most often affected in CCUS. Preclinical studies have shown that active demethylation by the TET enzymes is dependent on vitamin C, and the investigators and collaborators have shown that plasma vitamin C levels are exceedingly low in hematological cancer patients but are easily corrected by oral vitamin C. This study is part of an array of EVITA studies aimed at clarifying whether the standard of care of patients with myeloid malignancies should be changed and oral vitamin C supplement added to the treatment recommendations.
This study will evaluate pediatric patients with malignant or non-malignant blood cell disorders who are having a blood stem cell transplant depleted of T cell receptor (TCR) alfa and beta cells that comes from a partially matched family donor. The study will assess whether immune cells, called T cells, from the family donor, that are specially grown in the laboratory and given back to the patient along with the stem cell transplant can help the immune system recover faster after transplant. As a safety measure these T cells have been programmed with a self-destruct switch so that they can be destroyed if they start to react against tissues (graft versus host disease).