View clinical trials related to Coagulation Defect; Acquired.
Filter by:Aim of the study The investigators aim to establish: - Whether noradrenaline (NA) infusion has a significant effect on coagulation and fibrinolysis in patients with severe traumatic brain injury (TBI). - Whether disruption of haemostasis can be recorded with a computerized tomography (CT) scan. - Whether there is a significant difference between the values of haemostasis parameters in the internal jugular vein and the radialis artery. The hypotheses 1. In the early stage of treatment (1-3 hours), an increased formation of thrombin occurs in patients with severe isolated TBI that are treated with NA; consequently, platelet use increases in comparison with patients who don't need NA, as do coagulation factors and hyperfibrinolysis. 2. The concentration of NA correlates with thrombin formation and the correlation is stronger in higher doses of NA. 3. Thrombin formation will decrease more slowly in the group that will receive NA therapy in comparison to the group that will not receive NA therapy.
Need for perioperative blood transfusion is still high in certain types of oncological abdominal surgery. Allogeneic blood transfusion may be detrimental in cancer patients undergoing a potentially curative resection of malignant tumor, although the detailed mechanism of this effect is still under debate. We plan to evaluate whether a new, rotational thromboelastography-guided algorithm (ROTEM) to guide hemostatic resuscitation intra-operatively decreases the use of allogeneic blood products, the total amount of bleeding, transfusion related side effects, thromboembolic complications and costs. Its effect on each patient's post-operative hemostatic profile is also measured. 60 patients having a potentially curative pancreaticoduodenectomy (or resection of cauda of pancreas), total removal or partial resection of kidney and open radical cystectomy are recruited when an active blood loss of more than 1500 ml is estimated and/or measured and are randomized into two groups: one will be treated conventionally, ie. using massive transfusion protocol (MTP) if necessary, clinical judgement and conventional coagulation tests, the other treated using a ROTEM-based algorithm.
This study evaluates the use of tranexamic acid (TXA) in addition to standard therapy in children receiving chemotherapy or blood and/or marrow transplantation to decrease the risk of bleeding. Half of participants will receive tranexamic acid and half of participants will receive placebo.
Coagulation factor XIII (FXIII), a plasma transglutaminase, is known as the final enzyme of the coagulation cascade, responsible for a cross-linking of fibrin to strengthen blood clot. It also minimizes fibrin degradation by its cross-linking it with alfa2-antiplasmin molecules. It has been found that similar to plasma fibrinogen level, FXIII activity can be reduced in the early phase of severe trauma. Therefore, its immediate substitution is of potential therapeutic interest in trauma-induced coagulopathy. However, unlike plasma fibrinogen level evaluation, measurement of the FXIII activity is not routinely available. Therefore, targeted substitution of FXIII is practically impossible. The plasma fibrinogen level is routinely measured in severe trauma patients. Based on pathophysiologic assumptions and a limited number of published data we hypothesize that the FXIII activity correlates with fibrinogen level. In such case, indirect FXIII activity prediction by fibrinogen level measurement would be a convenient approach to enable FXIII targeted substitution. Therefore we decided to perform a prospective observational clinical trial to determine whether the low plasma fibrinogen level in severe trauma correlates with decreased FXIII activity.