View clinical trials related to Coagulation Disorder, Blood.
Filter by:The purpose of this study to evaluate the translational application of the safe and effective treatment of Narrow-Band Ultraviolet light B-band (NB-UVB) to high-risk COVID-19 patients in an effort to improve their immune and hemostatic imbalance to increase survival and improve outcomes.
For patients with large head and neck tumors the recommended treatment, in many cases, is a combination of extensive surgery and postoperative radiotherapy. The surgical procedure involves resection of the tumor and reconstruction with a so called microvascular free flap, i.e. tissue transferred from for instance the arm or leg to the resection site. Complications of this complex procedure include, but are not limited to, bleeding and blood cloths (thrombosis) in the transferred tissue (free flap), which can cause very serious complications including need for further surgery and loss of the flap. Routine blood tests can measure parts of the system that regulates bleeding and the forming of blood clots, the so called coagulation system, but these tests don't cover the whole system. There are however more advanced instruments, such as ROTEM, rotational thromboelastometry, which provide a more global view of the hemostatic potential of whole blood. ROTEM is one of few more advanced assays that can be analyzed in emergency situations in major hospitals. Other more advanced coagulation assays are thrombin generation and measurements of specific coagulation factors, several of which are vitamin K dependent. Vitamin K is essential in the coagulation system and also involved in many other physiological processes. Deficiency of this vitamin is common, but not well studied in patients undergoing head an neck free flap surgery. The investigators plan to study ROTEM and other above mentioned coagulation parameters in patients undergoing major head and neck surgery including microvascular free flap reconstruction to assess if these parameters can help predict patients at risk for bleeding or flap thrombosis. Further on this could hopefully enable prevention of complications and improve treatment of coagulation complications that still occur.
Inflammation and abnormalities in laboratory coagulation tests are inseparably tied. For example, coagulation abnormalities are nearly universal in septic patients. Coagulation disorders have also been reported in many patients with severe courses of Coronavirus disease 2019 (Covid-19). But it is difficult to assess these changes. Global coagulation tests have been shown to incorrectly assess in vivo coagulation in patients admitted to intensive care units. But other tests are available. Thrombin generation assay (TGA) is a laboratory test which allows the assessment of an individual's potential to generate thrombin. But also in conventional TGA the protein C system is hardly activated because of the absence of endothelial cells (containing natural thrombomodulin) in the plasma sample. Therefore the investigators add recombinant human thrombomodulin to a conventional TGA. Thereby the investigators hope to be able to depict in vivo coagulation more closely than global coagulation tests do.
Patients with cirrhosis are frequently hospitalized and often undergo procedures. Knowledge surrounding bleeding risk is sparse and practice patterns vary across centers in regards to bleeding prophylaxis. The goal of this study to is to obtain more knowledge regarding risk factors for procedural related bleeding in patients with cirrhosis and to develop a predictive model to risk stratify patients before undergoing procedures. Through collaboration from centers across the world this study should provide information on prevalence of bleeding and variation in practice patterns for prophylaxis.
Implementing coagulation management algorithms based on Point-of-care (POC) testing devices such as thromboelastography (TEG) or rotational thromboelastometry (ROTEM) have been shown to reduce transfusion rates and the occurrence of adverse patient outcomes. Apart from the TEG and ROTEM, another viscoelastic POC measurement technique, the SONOCLOT, can be easily used at the bedsite. However Information regarding a SONOCLOT based coagulation management algorithm however is lacking. Transfusion rates of allogeneic blood products (Red blood cells = RBC, Fresh frozen plasma = FFP, Platelet concentrates = PLT) and patient adverse outcomes in two cohorts before and after the implementation of a SONOCLOT based coagulation management algorithm were evaluated on an observational basis in 1754 patients undergoing different types of cardiac surgery. The effect of the cohort and 19 predictors on transfusion was assessed by relative R2-values obtained by bootstrapping and a hurdle regression model, comprising a binomial and a Poisson count component. Association of predictors with post-operative outcomes was assessed with a logistic regression model.