Incidence of Intracranial Hemorrhage in Glioma Patients With Venous Thromboembolism Converted From...
GliomaMalignantGlioma patients with history of venous thromboembolism (VTE) treated on low molecular weight heparin (LMWH) and who decided with their physician to convert to Apixaban (oral drug) will be enrolled into our study and will collect data regarding recurrent VTE and Intracranial hemorrhage and the incidence of these events.
Observational Study of Thrombogenic Properties in 220 Patients With Proximal Femur Fracture
ThromboembolismMeasurement of thrombogenic properties by TEG and MEA and observation of thrombotic events over 2 years in 220 patients with hip fracture.
Fetal Loss in Women With Unprovoked Thromboembolism (FLUTE)
Venous ThromboembolismFetal DeathThe purpose of this study is to determine the risk of fetal loss in women with unprovoked venous thromboembolism (VTE) who do not have identifiable inherited thrombophilia compared with women who have the diagnosis of venous thromboembolism (VTE) excluded.
Detecting Circulating Emboli in Patients With Acute Venous Thromboembolism
Venous ThromboembolismThe purpose of this study is to further evaluate and adjust the photoacoustic flow cytometry device and its use in detecting circulating emboli. Study Design: Cohort 1: Normal healthy volunteers will be enrolled to further adjust the device settings. Cohort 2: Use the Phatoacoustic flow cytometry (PAFC) to detect circulating emboli in vivo in patients with venous thromboembolism at diagnosis, during and after anticoagulation therapy.
Study to Evaluate the Safety and Efficacy of Pradaxar for the Prevention of Venous Thromboembolism...
ThromboembolismArthroplasty2 moreOpen, prospective, uncontrolled, observational cohort study.
Impact of Early Debriefing and Enhanced Educative Components on Direct Oral Anticoagulant Adherence...
Venous ThromboembolismVenous thromboembolism (VTE) is a frequent multifactorial and potential life-threatening disease. Once VTE has been diagnosed, anticoagulation should be started and prolonged for at least three to six months in order to reduce the risk of fatal and non-fatal recurrences and long-term sequelae. The development of direct oral anticoagulants (DOACs) has represented a major advance in patients' care as there is evidence that DOACs are associated with a decreased risk of bleeding without loss in efficacy and as it simplifies treatment modalities for the patients and the physician. However, as DOACs do not require laboratory monitoring, adherence of anticoagulation is difficult to evaluate and traditional programs built on patients receiving VKA may no longer be applicable to patients on DOAC. In order to increase treatment adherence in patients on DOAC for an acute VTE and to improve the quality of life, the impact of specific educational programs on DOACs, taking in account both therapeutic (DOAC) and medical illness (VTE) dimensions needs to be investigated. In patients with an acute episode of VTE treated for at least 6 months, the main hypothesis is that early debriefing and educative components added to a standardized visit one month after an acute VTE has the potential to improve patient's adherence to APIXABAN therapy at 6 months of follow-up.
Pilot Feasibility and Safety of Administering Weight Adjusted Fixed LMWH Dose
Venous ThromboembolismBackground Enoxaparin is a commonly used low molecular weight heparin (LMWH) for the treatment of neonatal and children thrombosis that is monitored with anti-factor Xa (anti-Xa) levels. However, this therapeutic range of anti-Xa (0.5 - 1.0 u/ml) was extrapolated from adult studies. The burden of pain to neonates due to venipunctures and of resources to the health care system also warrants an evidence-based review to assess the utility of monitoring LMWH therapy with anti-Xa levels. Methods/Design This is a prospective pilot, feasibility and safety multicenter, randomized controlled trial to compare the approach of treating thrombosis in neonates and children with enoxaparin using weight adjusted fixed dose to variable dose titrated to maintain a pre-determined anti-Xa range (0.5-1.0 u/mL). We plan to recruit 20 neonates and children over the study period, who will be randomized within their first week of anti-coagulation treatment. Key feasibility outcomes include screening/recruitment ratio, monthly recruitment rate, and completeness of data collection. We will also measure the safety outcome of bleeding as well as comment on efficacy of resolution of thrombosis as a secondary outcome. Discussion The administration of weight adjusted fixed dose of enoxaparin without anti-Xa monitoring has the potential to reduce pain from multiple venipunctures in neonates and children as well as resources used in their already complex care. The results of the FiXET trial will set the framework for a larger multicenter randomized controlled trial to compare the efficacy of administering enoxaparin to neonates and children without monitoring to the current conventional approach of routine monitoring with anti-Xa levels.
Comparision Between Activated Partial Thromboplastin Time Versus Anti-Xa Activity in Heparin Monitoring...
Myocardial InfarctionVenous Thromboembolism2 moreBackground: Unfractionated heparin (UFH) is a sulfated polysaccharide extracted from porcine intestinal mucosa that enhances the inhibitory activity of the natural anticoagulant antithrombin towards most activated clotting factors (F), particularly FXa and FIIa (thrombin) . Despite the growing interest for low molecular weight derivatives (LMWH), UFH is still widely used for different indications including the treatment of acute thrombosis including venous thromboembolism, coronary syndromes (ACS), and other thrombotic diseases. UFH is administered by parenteral route either intravenous (IV) or sub-cutaneous (SC).Actually, there is evidence that the risk of recurrence of thrombosis is increased when heparin levels fells below the lower limit of the therapeutic range, while the hemorrhagic risk increases with heparin levels above the upper limit of the therapeutic range. Moreover, the anticoagulant response to UFH is highly variable for one individual to another. As the clinical efficacy of heparin is dependent on maintaining an anticoagulant effect above a minimum level, careful laboratory monitoring of UFH treatment is mandatory. For that purpose, two options are offered to the clinicians: i) to evaluate either the prolongation of a global clotting assay, the activated partial thromboplastin time (aPTT) and ii) to measure the heparin-enhanced inhibitory activity of AT toward purified activated factors such as FIIa and FXa using chromogenic substrate-based assays. UFH therapy is still widely monitored by the aPTT, a global clotting assay, that reflects the ability of heparin to enhance the inhibitory activity of AT against FIIa, FXa, and other activated factors. The therapeutic range of aPTT prolongation is highly dependent on the reagent and analyzer used. As the consequence, it must be defined by each laboratory in its own technical conditions (for each reagent batch) to correlate with heparin levels between 0.20 and 0.40 U/mL (protamine sulfate titration), corresponding to anti-FXa activity between 0.30 and 0.70 IU/mL. In that connection, the prolongation of aPTT corresponding to antiFXa activity between 0.30 - 0.70 IU/mL is highly variable depending of the reagents e.g.between 1.6 - 2.7 x control for weakly sensitive reagents and between 3.7 - 6.2 x control for highly sensitive reagents. The use of aPTT has advantages as it is easy-to-perform, quick, inexpensive but faces numerous challenges due to the significant influence of the technical conditions (reagent/instrument) on the test result, to lot-lot variation in reagent sensitivity, to the need of studies to evaluate the therapeutic range, to limited therapeutic range, and also to non-specific prolongation in the case of lupus anticoagulant, factors deficiency, inhibitors or shortening in the case of high factor levels, particularly FVIII.In contrast, the use of chromogenic anti-Xa assays has many advantages particularly a published therapeutic range for UFH i.e. between 0.30 and 0.70 IU/mL, a specificity to its interaction with AT (no Heparin Cofactor II interference by using bovine FIIa or short incubation time) and faces few challenges such as limited availability in some area and a cost that is slightly higher than that of aPTT. In addition, anti-Xa assays allow accurate measurement of all heparin(s) derivatives and particularly LMWHs and fondaparinux. Since the first reports in the mid-eighties, some small sized studies have compared the two monitoring strategies mainly retrospectively designed (7-11). Even though, one single prospective randomized management study evaluated the comparison between the two monitoring strategies with clinical end-points i.e. recurrence of thrombosis and bleeding complication in a cohort of 131 patients with VTE . All concluded to a trend toward higher, or at least similar, safety/efficacy/efficiency when patients were monitored using antiXa activity vs. aPTT. Even though differences were not significant due to the lack of power of these studies.
Evaluation of ReX-C System in Measurement and Improvement of Patients' Adherence.
ThromboembolismThe study aims to evaluate the safety, usability and efficacy of the ReX-C - a novel medication management system - in measurement and improvement of adherence, in patients receiving oral anti-coagulation therapy for the treatment and prevention of thromboembolism.
Dalteparin in Preventing Blood Clots in Patients With Lung Cancer
Lung CancerThromboembolismRATIONALE: Anticoagulants, such as dalteparin, may help prevent blood clots from forming in patients with lung cancer. It is not yet known whether dalteparin is effective in preventing blood clots in patients with lung cancer. PURPOSE: This randomized phase III trial is studying how well dalteparin works in preventing blood clots in patients with lung cancer.