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NCT07515664
This is a feasibility study of uninterrupted warfarin with a one time dose of Vitamin K before a surgical procedure.
NCT07360899
Atrial fibrillation is a common heart rhythm disorder that increases the risk of stroke. In patients with atrial fibrillation, blood clots most often form in a small structure of the heart called the left atrial appendage. If a blood clot travels from the heart to the brain, it can cause a stroke. Blood-thinning medications are commonly prescribed to reduce the risk of stroke in patients with atrial fibrillation. However, some patients cannot take these medications long-term because of bleeding risk, side effects, or other medical reasons. Closing the left atrial appendage is an alternative approach to reduce the risk of stroke by preventing blood from collecting in this area. When patients undergo cardiac surgery for another indication, closure of the left atrial appendage can be performed during the same operation. This study is designed to evaluate the safety and effectiveness of surgical closure of the left atrial appendage using a device called AtriLASH during cardiac surgery. AtriLASH is a surgical suture-based device intended to close the left atrial appendage. The study will assess whether the left atrial appendage can be safely and effectively closed using this method in patients with atrial fibrillation undergoing cardiac surgery. The information obtained from this study may help determine whether this approach can reduce the risk of stroke and potentially decrease the need for long-term use of blood-thinning medications in selected patients.
NCT07024160
This is a single-center, randomized,double-blind, placebo-controlled Phase I study to evaluate safety, PK and PD of single ascending dose (SAD) of MT1011 injection in healthy adult subjects. Includes 5 dose cohorts, with 40 subjects planned for enrollment.
NCT06702579
Rationale: A novel point-of-care device capable of measuring factor VIII (FVIII) activity and thrombin generation (TG) is currently under development. Utilization of this device in a home situation could potentially transform hemophilia care and improve patients' autonomy. Objective: To explore the potential consequences of home monitoring of hemostatic parameters in patients with hemophilia A Study design: Cross-sectional observational study consisting of semi-structured interviews and focus groups Study population: Approximately 10 patients treated with vitamin K antagonists engaging in self-monitoring of coagulation at home and approximately 20 patients with hemophilia A. Main study parameters/endpoints: The main outcome of this study is to assess series of interrelated themes related to the unmet needs of hemophilia patients and the envisioned potential consequences of home monitoring on these unmet needs. Secondary outcomes include: identifying key features of a home monitoring platform to be used in hemophilia care, describing the experienced consequences of implementing home self-monitoring in anticoagulation treatment, assessing the current experiences of patients with self-monitoring, and providing an overview of the burdens and unmet needs experienced by patients with hemophilia with current hemophilia care. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: The risk associated with participation in this study is negligible. Minor patients will be included in this study only if informed consent is given by both the patient and his/her caregiver (in patients between 12-16 years old). Gathering the insights of caregivers of minor patients on the current care for hemophilia and potential consequences of home self-monitoring is vital, as their experiences and needs might differ significantly from older patients. Participating in this study does not entail direct benefits. However, patients who participate can contribute to the development of future monitoring systems, which have the potential to alleviate the current burden of their disease and treatment.
NCT05486351
This is an observational, prospective, multicenter, cohort study in patients with cardioembolic stroke and previous oral or parenteral anticoagulant therapy. Patients in which anticoagulante therapy is mantained will be compared to those in which it is interrupted, in terms of stroke or systemic embolism and haemorrhagic transformation.
NCT04623177
The respiratory distress that goes with COVID-19 infection has been related to a procoagulant state, with thrombosis at both venous and arterial levels, that determines hypoxia and tissue dysfunction at several organs. The main sign of this thrombotic activity seems to be the D-Dimers, that have been proposed to identify patients with poor prognosis at an early stage. Knowledge on how to prevent or even treat this procoagulant state is scarce. COVID-19 patients may be out of general thromboprophylaxis recommendations, and recent studies suggest a better prognosis in severe COVID-19 patients receiving anticoagulant therapy with low molecular weight heparin (LMWH). However, the LMWH efficacy and safety, mainly in patients admitted to an Intensive Care Unit, remains to be validated.
NCT05181774
Objectives: Atrial fibrillation (AF) is the most common arrhythmia. Anticoagulation with warfarin or new oral anticoagulants in patients with AF can significantly reduce thromboembolic events. However, due to the lack of bleeding risk predictors of oral anticoagulants, the bleeding risk of patients with AF cannot be accurately evaluated. The purpose of this study is to screen biomarkers that can predict bleeding in patients with AF through proteomics and metabolomics, and construct the protein metabolic network pathway of anticoagulant bleeding in patients with AF. Design: AF patients treated with oral anticoagulants were enrolled in this study. Blood samples were centrifuged and the supernatant was stored in the refrigerator at - 80 ℃. All patients were followed up for one year to determine whether bleeding occurred after oral anticoagulants. Proteomic data were obtained by LC-MS/MS Analysis-DIA platform. Metabolomic data were obtained by UPLC-QTOF/MS platform. All of the omics data were used to compare proteins/enzymes with metabolic pathways. Quantitative changes of individual metabolites and proteins were calculated and graphed using the KEGG mapping tools.