View clinical trials related to Blood Coagulation Disorder.
Filter by:For centuries the term "blood curling" has been used to describe extreme frightening situations. However, the origin of this ancient theory has never been studied and it remains unknown if fear induces the coagulation system.The objective was to explore the effects of acute fear on the coagulation system while sitting still. In a crossover study design healthy subjects will be exposed to a horrifying e.g. scary movie followed by a dull e.g. flat movie which is shown at least 1 week after the first movie on the same day of the week at the same time of the day. Participants will be recruited among students from the Leiden University Medical Center. Blood will be drawn from the cubital vein 10 minutes before the first movie, directly after the first movie. The same will be done 10 minutes before and directly after the second movie. Blood is drawn by using a needle puncture. Individual markers of coagulation activity will be determined from the blood samples. Pulse rates will be measured and an anxiety/fear score will be collected from each student for both movies.
The purpose of this study is to assess coagulation and platelet function in children with congenital heart disease, measured with a bedside device (thromboelastometry and impedance aggregometry). The investigators also aim to determine if this device detect post-cardiopulmonary bypass clotting derangements and may help to manage bleeding in this population.
The purpose of the present study is to perform a comprehensive description of haemostasis parameters before and after haemodilution with Hydroxyethyl starch (HES) following acute bleeding during elective surgery. Moreover the study aims to test the in vivo haemostatic potential of fibrinogen concentrate in dilutional coagulopathy caused by HES in a clinical, prospective, placebo-controlled randomised setup. We hypothesise; a) A coagulopathy is induced following in vivo haemodilution; b) the coagulopathy is improved or partially improved by fibrinogen.
Effective treatment and prevention strategies for childhood stroke and porencephaly can only be developed once the causes are understood. There is increasing evidence that inherited and acquired coagulation abnormalities alone or in combination with environmental factors, predispose to arterial and venous thrombosis. Inherited abnormalities of factor V Leiden, prothrombin, protein C, protein S, and antithrombin III may account for many of these thromboses. At present there is little information on the existing distribution of these coagulation anomalies in children with thrombosis. Recent reports also suggest that these clotting abnormalities may be responsible for some instances of intracranial hemorrhage, porencephaly, cerebral palsy and fetal death. This study will measure the frequency of several coagulation factor abnormalities (factor V Leiden, prothrombin 20210A, protein C, protein S, antithrombin III, and antiphospholipid antibodies) in children with a history of porencephaly and stroke, and will compare these to the prevalence of these mutations in population controls and family members. We will also describe the exogenous conditions which in concert with these coagulation factors, may have led to the development of thrombosis in these children....