View clinical trials related to Hemostatic Disorders.
Filter by:Excessive bleeding is common after cardiac surgery. This may result in patients receiving a blood transfusion or suffering the life-threatening complication of cardiac tamponade. Tamponade is when excessive bleeding compresses the heart and prevents it from pumping properly. A major reason for the bleeding is the damage done to platelets by the cardiopulmonary bypass (CPB) machine. Often patients receive platelets and plasma from blood donors to try to reduce the bleeding post-operatively. The investigators plan to take platelets and plasma from patients before they are damaged. They would then return these 'undamaged' sequestered platelets to the patients after the bypass machine is no longer needed. Therefore, the investigators' primary question is whether platelet sequestration would reduce the bleeding problems that occur following cardiac surgery. They will evaluate bleeding problems using thromboelastography, which provides a comprehensive assessment of both how blood clots form and their strength. If sequestration reduces bleeding problems following cardiac surgery then it may reduce the chance of patients receiving blood products from donors. Although donated blood is thoroughly tested, its use does expose patients to the risk of transfusion errors, blood borne infections and reactions. Avoiding its use would be very desirable.
The primary hypothesis of this trial is that changes in oral vitamin K intake, based on simple food registries, may be superior to conventional changes in doses of medications in order to stabilize chronic oral anticoagulation.
This trial is conducted in the United States of America (USA). The purpose of this study is to evaluate the treatment of Recombinant Faction VIIa in Patients with Severe Bleeding Due to Trauma Please note that this trial and trial F7TRAUMA-1711 (NCT00184548) have been merged.
Investigate the validity of Hemosense System in pediatric patients on anticoagulation therapy.
This trial is conducted in Japan. The purpose of this trial is to evaluate the safety and preliminary efficacy of Activated Recombinant Factor VII (NN-007) in patients with acute intracerebral haemorrhage.
This study will compare patients with mild to moderate prolongation of the INR test who receive FFP infusions prior to invasive hepatobiliary procedures for bleeding complications to patients who do not receive FFP infusions. Bleeding complications will be defined as meeting one or more of the following: 1. Intrahepatic hematoma greater than 1 ml/kg of patient weight as seen on post-procedure ultrasound examination performed between 4 to 30 hours after the procedure. 2. Greater than 1.6g/dL hemoglobin decline measured within 4 to 30 hours post-procedure compared with the pre-procedure value, in the absence of another identified bleeding source to account for the hemoglobin drop. 3. Need for transfusion of packed red blood cells for procedure-related bleeding while in the study. The secondary endpoints of this study will be: 1) The need to perform subsequent procedures (angiography, embolization, additional imaging study including computerized tomography (CT) scan, surgery) to diagnose or to arrest procedure-related bleeding OR the need for subsequent medical therapies (FFP, coagulation factor concentrates, anti-fibrinolytics) to treat procedure-related bleeding between time of procedure and the end of patient's time in the study. If necessary, the relationship of procedure or therapy to procedure-related bleeding will be assessed by an adjudication panel; 2) The predictive value of INR; 3) The effect of study treatment on change in INR; 4) The cost of preventing one bleed; 5) The predictors of bleeding other than INR; 6) The number of transfusion-associated adverse events encountered to prevent one bleed; and 7) The effect of treatment on bleeding grade.
Aims and Hypotheses: This randomised placebo controlled study will test the hypothesis that Recombinant Activated Factor VII (rVIIa) will improve haemostasis after an inadequate response to conventional therapy in complex cardiac surgery. Major bleeding is still of concern in complex cardiac surgery. It has been shown to be associated with poorer patient outcome and results in the consumption of resources (hospital costs, manpower and blood bank reserves). This study has the potential to provide evidence that rVIIa can reduce transfusion requirements and improve patient outcome in a problematic aspect of complicated cardiac surgery. The objective is to conduct a multi-centre randomised placebo controlled study that has been designed to scientifically evaluate the treatment of post bypass coagulopathy in the association with complex cardiac surgery. The trial design is based on clinical practice that has evolved over 2 years at the Austin Hospital during which 38 patients have received open label administration of rVIIa. There is currently no published RCT in this area and there is no TGA approval for the use of rVIIa for this indication.
The purpose of this study is to see whether power Doppler sonography (PDS) can be used to diagnose synovitis in patients with inherited bleeding disorders.
The risk of deep venous thrombosis after radical breast surgery is known. The objective of this study is to explore hypercoagulability after radical breast cancer surgery by studying several factors for haemostasis before, during and after surgery. Ultrasound Doppler examination is realised between 24 and 72 hours post-operatively. Hypercoagulability is defined by a significant increasing level of thrombin-antithrombin, D-dimer and the endogen thrombin potential.
Open-heart surgery frequently results in abnormal clotting, which in turn results in excessive blood loss and the need for transfusion of multiple blood products to patients and leads to adverse outcomes. Prompt identification of any clotting abnormalities after cardiac surgery reduces blood loss and blood product transfusion and may improve outcomes. Currently, however, this monitoring is dependent on standard laboratory-based tests of clotting that have a long turnaround time (30-45 min) and do not measure some important aspect of clotting. There are now other monitoring options that are carried out at patients’ bedside, providing results more quickly than standard laboratory tests (within 2-5 minutes for some), and measure more aspects of clotting, providing more information on possible causes of any abnormalities. In this study, we will compare the cost-effectiveness of two of these newer monitoring techniques with standard laboratory-based tests by assigning 150 patients who will be undergoing open-heart surgery to one of the three monitoring techniques (50 patients will be assigned by chance to each group). In each group, an explicit algorithm based on the monitoring technique of that group will be used to guide all transfusion decisions. Between-group differences in number of units of blood products transfused (primary outcome), amount of blood loss, rate of adverse events, and cost of monitoring will be measured. The objective of the study is to determine which of the three methods is most cost-effective in terms of these outcomes.