View clinical trials related to Purpura.
Filter by:The purpose of this study is to assess the psychometric properties of a recently developed congenital thrombotic thrombocytopenic purpura (cTTP)-specific patient-reported outcomes (PRO) instrument.
Idiopathic thrombocytopenic purpura (ITP) is the most frequent auto-immune cytopenia. There is no specific biological marker and the diagnosis often results from the exclusion of other differential diagnoses, notably inherited thrombocytopenia. Recent studies have reported an original platelet destruction mechanism in ITP, by antibody-mediated desialylation of membrane proteins. The detection of platelet sialylation can be readily achieved using flow cytometry. This could provide a new biomarker of ITP, useful to ascertain a diagnosis of ITP and guide towards proper patient management.
Using eltronmobag as an alternative pathway, which depend on stimulation of thrombocyte synthesis, in chronic and persistent immune thrombocytopenia may be more promising treatment than the classic type, not only by increasing platelets count but also through enhancing of the platelets activation and upregulation of GPVI expression on platelet surface. This study will include 40 pediatric patients with chronic or persistent ITP, recruited from the Hematology clinic of pediatric hospital Ain Shams University, aiming to investigate the efficacy, & the safety and tolerability of eltrombopag therapy for children as well as the ability of eltrombopag to enhance the platelet activation through the up-regulation of glycoprotein VI (GPVI) receptor expression in comparison with other lines of treatment. Patients will be divided into 2 groups : Group 1 on eltrombopag ; Group 2 : receiving other lines of therapy . All Patients will be subjected to : 1. bleeding score assessment ( baseline &every month ) and Health related quality of life based on Kids' ITP Tools (KIT) questionnaires( baseline and week 24 ) 2. Baseline and at week 24 bone marrow examination with reticulin stain 3. clinical examination every 2 weeks and complete blood counts. 4. Assessment of soluble form of glycoprotein VI using sandwich enzyme-linked immunosorbent assay (ELISA) as well as assessment of platelet activation by GPVI using flowcytometry (Gardiner, etal.,2010 ) at baseline and at the end of 6 months treatment period
This study seeks to understand the journey that patients eventually are diagnosed with vasculitis experience in the period prior to their formal diagnosis by a healthcare provider. Data elements of interest include average time from the onset of the first symptoms to the time a diagnosis of vasculitis is confirmed. Other aims include identifying factors associated with the time to diagnosis. These factors will be divided into: a) intrinsic factors, or so-called "patient-related factors", such as the type of vasculitis symptoms, patient demographics, socioeconomic status, patients' beliefs regarding the etiology of their symptoms, and other factors, and b) extrinsic factors, or "professional/health system factors", such as healthcare access, referral patterns, testing patterns, and other factors. Understanding such factors can guide future efforts to shorten delays in diagnosis and thereby improve outcomes. All analyses will be done for the population of patients with vasculitis as a whole and by individual types of vasculitis.
Thrombotic thrombocytopenic purpura (or TTP for short) is a condition where blood clots form in small blood vessels throughout the body. The clots can limit or block the flow of oxygen-rich blood to the body's organs, such as the brain, kidneys, and heart. As a result, serious health problems can develop. The increased clotting that occurs in TTP uses up the cells that help the blood to clot, called platelets. With fewer platelets available in the blood, bleeding problems can occur. People who have TTP may bleed underneath the skin forming purple bruises or purpura, or from the surface of the skin. TTP also can cause anemia, a condition in which red blood cells break apart faster than the body can replace them leading to lower than normal number of red blood cells. A lack of activity in the ADAMTS13 enzyme, a protein in the blood involved in blood clotting, causes TTP. The enzyme breaks up another blood protein called von Willebrand factor that clumps together with platelets to form blood clots. Some people are born with this condition, others get the condition during their life. Many people who born with TTP experience frequent flareups that need to be treated right away. If not treated It can be fatal or cause lasting damage, such as brain damage or a stroke. BAX 930 is a medicine that replaces ADAMTS13 and can prevent or control TTP flareups, called TTP events. The main aim of this study is to compare the number of TTP events in people born with severe TTP when they treated with BAX 930 versus when they are treated with the standard treatment. Treatment will be given in 2 ways: - BAX 930 or standard treatment given to prevent TTP events from happening. - BAX 930 or standard treatment given to control an acute TTP event when it happens, according to the clinic's standard practice. Both BAX 930 and standard treatment are given slowly through a vein (infusion). At the first visit, the study doctor will check if you can participate in the study. If you are eligible and enter the study, you will follow an assigned schedule and either start with BAX 930 (Period 1) and then switch to standard treatment (Period 2) or start with standard treatment (Period 1) and then switch to BAX 930 (Period 2). Everyone will be treated with BAX 930 again for Period 3. Each Period will last approximately 6 months. If you enter the study to control an acute TTP event, you will follow a schedule receiving either BAX 930 or standard care to treat your acute TTP event. Once the acute TTP event has gotten better, you can decide to continue in the study and be given treatment to prevent TTP events from happening, following the schedule above. Another study's aim is to assess side effects from treatment with BAX 930 and standard treatment. To do that, the study doctor will ask you questions about your health at each study visit. The study doctors will also check how long BAX 930 stays in the blood of the participants, over time. They will do this from blood samples taken after participants receive their specific infusions of BAX 930. This will happen at different times during the study. 1 month after all treatment has been completed, participants will visit the clinic for a final check-up.
This observational study enrolls patients who have received at least one infusion of octaplasLG®. OctaplasLG® will be administered standard of care and observation occurs during the treatment and 24 hours after the end of treatment. Characteristics of the use of octaplasLG®, tolerance criteria, and efficacy criteria will be collected.
The purpose of this study is to explore the safety, preliminary clinical benefit, and activity of BIVV009 in patients with chronic immune thrombocytopenia.
The project was undertaking by Qilu Hospital of Shandong University in China. In order to compare the efficacy, safety and response duration of different dose of rituximab in patients primary immune thrombocytopenia(pITP).
A multicentre, randomised, double-blind,4-stages phase III study enrolled 414 patients with chronic, previously treated ITP. Dosage could be adjusted (2.5~.75 mg/day) to maintain platelet counts 50~250×109/L
Henoch-Schönlein purpura (HSP) is the most common vasculitis in children, with an incidence of approximately 10:100 000 children and a slight male predominance (male-to-female ratio of 1.5:1). Henoch-Schönlein purpura nephritis (HSPN) is the principal cause of morbidity for HSP and 1%-7% of HSPN patients may progress to renal failure or end-stage renal disease. Immunosuppressive therapy has become the standard treatment in children with HSPN, however the use of these drugs are still mainly in an off-label manner in clinical practice. Tacrolimus, a calcineurin inhibitor, has been recently suggested in the treatment of HSPN in children. However, the evidence-based clinical data are still limited. Given the potential benefits and unmet need in clinical practice, the purposes of this pilot study were to assess effectiveness and safety of tacrolimus in HSPN children and evaluate the potential impact of CYP3A5.