View clinical trials related to Purpura.
Filter by:This is a study of TAK-755 in adults with immune-mediated thrombotic thrombocytopenic purpura (iTTP). The main aim of this study is to determine the percentage of participants with a clinical response without plasma exchange during the study. Participants who have an acute attack of iTTP will receive TAK-755 and immunosuppressive therapy during their stay at the hospital until they achieve a clinical response. Participants will also be treated with TAK-755 for an additional time of up to 6 weeks after the acute phase. In total, participants will stay in the study for approximately 3 months.
Information about patients was collected by reviewing the Hitech case system and telephone and outpatient follow-up, and the case database was constructed by Epidata software. The sample size is expected to be 200 cases, the participating hospital is the First Affiliated Hospital of Soochow University, and the study time frame is from Oct 20, 2022, to Oct 20, 2027. The observation indexes of the study include the basic information of patients' age and gender and the clinical related data of thrombotic thrombocytopenic purpura.
This is a single group, treatment, Phase 3, open-label, single-arm study to evaluate the efficacy and safety of caplacizumab and immunosuppressive therapy (IST) without firstline therapeutic plasma exchange (TPE) with primary endpoint of remission in male and female participants aged 18 to 80 years with immune-mediated thrombotic thrombocytopenic purpura (iTTP). The anticipated study duration per participant without a recurrence while on therapy is maximum 24 weeks (ie, approximately 1 day for screening + maximum 12 weeks of treatment for the presenting episode + 12 weeks of follow-up). Participants will have daily assessments during hospitalization and weekly visits for assessments during ongoing treatment with caplacizumab and IST. There will be 3 outpatient visits for assessments during the follow-up period. There will be two additional follow-up visits for participants who do not have ADAMTS13 activity levels of ≥50% at the time of caplacizumab discontinuation.
Detect development of immune thrombocytopenic purpura (ITP) after different types of (COVID-19) vaccination
A Prospective, Randomized, Open-Label, Multicenter Clinical Trial study to compare the efficacy and safety of ATRA plus eltrombopag compared to eltrombopag monotherapy in the treatment of steroid-resistant/relapsed immune thrombocytopenia (ITP).
Open, multi-center, observational, prospective cohort study, only disease-indicated treatment, in patients with clinically diagnosed acquired and congenital TTP regardless of gender, ethnicity, and comorbidities, over the age of 18 for 1.) prospective investigation of patients with TTP in an acute bout and during long-term follow and 2.) assessment of prevalence, course of disease, success of therapy, possible triggers for relapses and possibilities for better diagnosis and prognosis.
Immune thrombocytopenia (ITP) is an autoimmune disease characterized by low platelet counts with or without mucocutaneous bleeding (McMillan, 2007). Like the majority of autoimmune diseases, ITP is an organ-specific disease, and abnormalities in the regulation of the immune system have been shown to play an important role in the initiation and/or perpetuation of the disease (McKenzie et al.,2013). Still, immune thrombocytopenia (ITP) is a significant clinical problem due to chronicity, treatment cost, occurrence mainly in, young, and relatively poorer quality of life
The lack of ADAMTS13 is the only biological marker that is specific for aTTP diagnosis8 and the assessment of ADAMTS13 is of clinical importance because it is essential for the rapid differential diagnosis between aTTP and other TMA. Furthermore, monitoring of ADAMTS13 activity is useful to ensure biological remission (ADAMTS13 levels > 10%) as well as predicting relapses. Due to the high mortality rate of aTTP, treatment should be started as soon as the disease is suspected, sometimes even before confirmation with the ADAMTS13 test results. This situation may lead to misdiagnose some patients and leave them without the appropriate treatment. In conclusion, ADAMTS13 activity assay is crucial for an early diagnosis and optimal management of acute aTTP and any delay in ADAMTS13 results will have a negative impact on the diagnosis, treatment and prognosis of the patient. There are currently 2 techniques available for the ADAMTS13 activity determination, the fluorescence resonance energy transfer (FRET) and the Technozym chromogenic enzyme-linked immunosorbent assay (ELISA). Both are considered reference methods but they require considerable skill because they are highly manual and this increases the risk of error. Furthermore, these methods are time-consuming, not widely available and, in case of the ELISA method, it requires a new calibration at each run. The inter-laboratory variability is also a challenge and therefore a validation and/or interpretation method could be needed. Recently, a new and first fully automated HemosIL AcuStar ADAMTS13 Activity assay (Instrumentation Laboratory, Bedford, Massachusetts, United States) has been developed. HemosIL AcuStar ADAMTS13 Activity assay is a two steps chemiluminescent immunoassay (CLIA) with an analytical time of 33 minutes for the quantitative measurement of ADAMTS13 activity in human-citrated plasma on the ACL AcuStar analyser. The immunoassay uses the GST-VWF73 substrate in combination with magnetic particles for rapid separation and chemiluminescence technology detection. The ADAMTS13 present in the plasma sample cleavages the GST-VWF73 substrate and the detection of the generated fragments is based upon an isoluminol-labelled monoclonal antibody that specifically reacts with the cleaved peptide. The emitted light is proportional to the ADAMTS13 activity in the sample. This new ADAMTS13 assay method has been compared with the other two available techniques in two different studies. First, Favresse et al. published the results of the comparison between Technozym activity ELISA assay and the new HemosIL AcuStar chemiluminescent assay. On the other hand, Valsecchi et al. have recently published the results of validation of this new technique in comparison with ELISA and FRETS in 176 samples. Both studies conclude that the new chemiluminescent ADAMTS13 activity assay showed a good correlation and excellent clinical performance for the diagnosis of severe ADAMTS13 deficiency with the FRETS-VWF73 assay and a commercial ELISA when considering only ADAMTS13 activity values below 10% (the internationally accepted cut-off for a diagnosis of severe ADAMTS13 deficiency typical of aTTP). Finally, Stratmann et al. have just published another study comparing the HemosIL AcuStar chemiluminescent assay with two commercially available ADAMTS13 assay kits using 24 paired test samples derived from 10 consecutively recruited patients13 and their results corroborate the previously published data suggesting that the AcuStar assay could be a valuable and accurate tool for ADAMTS13 activity testing and aTTP diagnostic. In this context, a unique opportunity to validate this new technique is generated, both retrospectively with our already available data from frozen samples and also in the context of a large prospective study. This will be the first study worldwide testing HemosIL AcuStar method in real clinical practice aTTP population (Spanish and Portuguese aTTP populations) with the aim to standardize the diagnosis and follow-up methodology for the disease.
The objective of this national, prospective, multi-centre observational study is to describe the prescription rational and practice in Germany, confirm the efficacy of caplacizumab in a real-world setting, and identify predicting factors in iTTP-patients with regard to persistent autoimmune activity, therapy guidance and risk of complications. The rational is to develop new treatment algorithms that optimize overall patient outcome and reduce treatment cost.
Thrombotic thrombocytopenic purpura (TTP) is a rare condition, which has a very high risk of death if not recognised and given immediate treatment. TTP is caused by a very low level of an enzyme in the body, called ADAMTS13. A lack of ADAMTS13 causes multiple small clots to form around the body which can disrupt the blood flow to important organs. Although survival has improved significantly, it is now being recognised that patients with TTP may suffer with longer term complications as a result of their condition; literature from the USA reports higher rates of major depression and also poor memory and reduced concentration in patients with TTP. The investigators aim to improve the understanding of the long-term complications and review, for the first time, forward-looking data at multiple time points in patients with TTP in the UK. Both patients with a new diagnosis and patients with a known diagnosis of TTP identified in NHS hospitals will be included, over a minimum duration of 2 years. This will be a questionnaire based study with both doctor led and participant led questionnaires at pre-determined points in time. By improving the understanding and comparing symptoms to that of the general population, the investigators hope to improve the support and tailor the treatments which can be offered to patients with TTP.