Active clinical trials for "Venous Thrombosis"

Background. The optimal duration of oral anticoagulant treatment in patients with idiopathic Deep Vein Thrombosis (DVT)of the lower limbs is still uncertain. Residual Vein Thrombosis (RVT) has been found able to establish the patient' risk for recurrent thrombotic events. In the present study we conducted a RVT-based therapeutic strategy, withholding OAT after 3 months in patients without RVT while continuing anticoagulants for at least additional 9 months in those in whom RVT persists. Methods Patients with a first episode of symptomatic unprovoked proximal Vein Thrombosis (VT) were given Oral Anticoagulant Treatment (OAT) for 3 months. Residual Vein Thrombosis (RVT), ultrasonographically-detected, will be then assessed. Patients without RVT did not continue OAT (Group B), whereas those with RVT will continue OAT for at least additional 9 months. Patients were followed-up prospectively focusing on the study outcomes: occurrence of recurrent venous thromboembolism and major bleeding over a period of at least 12 months after OAT discontinuation.

The purpose of the study was to evaluate efficacy and safety of the new acute treatment of deep venous thrombosis by use of low-molecular-weight heparin compared with standard treatment using unfractionated heparin, especially concerning long-term morbidity.

The purpose of this study is to determine the optimal dose of BAY 59-7939 and to compare the safety and effectiveness of this new drug with the standard way of treatment of deep vein thrombosis (heparin infusion plus one of the vitamin K antagonists), taking into account new events of thrombosis and pulmonary embolism and bleeding risk.

Objectives are to evaluate whether idrabiotaparinux sodium (SSR126517E) is as least as effective as a standard warfarin treatment to prevent recurrence of venous thromboembolic events (VTE) in patients with symptomatic pulmonary embolism (PE) with or without symptomatic deep venous thrombosis (DVT) and to assess its safety (bleedings) versus warfarin.

This study will test the effectiveness of low-dose recombinant tissue plasminogen activator (rtPA, or alteplase) in dissolving blood clots in deep leg veins. Alteplase is used to clear blood clots in coronary arteries in patients having heart attacks. Blood clots can develop in the deep leg veins causing pain and swelling and may break loose and lodge in the lungs. Current routine treatments use anticoagulants such as heparin stop the clots from enlarging and prevent clots from moving to the lung but do not reliably dissolve clots in the leg.In an earlier study we showed that rtPA could be used to actually dissolve the clots. This study will determine whether lower doses of rtPA can dissolve clots with fewer bleeding complications than the current higher-dose regimens. Patients 18 years of age and older who have blood clots in a deep vein of the pelvis or leg may be eligible for this study if they have had symptoms for 14 days or less and if they have never had clots in their deep veins before. Participants are admitted to hospital for up to 5 days. On the first treatment day, the patient has a venogram to show the location of the clots. The radiologist injects an x-ray contrast material into a small vein in the foot and watches the dye by x-ray as it moves up the leg, revealing the clot(s). A catheter (plastic tube) is then inserted into a vein either behind the knee, in the groin, or in the neck, and advanced until it reaches the clots. When the catheter is in place, rtPA is injected while the radiologist watches the vein under the x-ray image. The amount of rtPa needed will depends on the size of the clot. Up to five venograms may be done if the clot requires the maximum four rtPA treatments allowed in this study. During the treatments, patients receive standard doses of heparin, given continuously by vein, After completion of treatments, anticoagulation is continued through use of a low molecular weight heparin (usually enoxaparin) given by subcutaneous injection as a transition medication during conversion to anticoagulation with warfarin ( also known as coumadin), another blood thinner, taken by mouth. Patients continue taking warfarin for 6 months. During thrombolytic therapy, blood samples are drawn shortly before the first dose of rtPA and at five time points afterward to measure the rtPA in the circulation and other factors that indicate whether the rtPA is affecting clotting ability. Blood also is drawn at least once a day to monitor heparin levels. To evaluate the impact of treatment on the function of the leg, patients return to the Rehabilitation Medicine Department and Radiology department at about 6 weeks (4 to 8 week ) and 6 months for clinical and imaging evaluation of impact of therapy on venous function. The objectives are to determine how well this treatment will restore venous function and whether this can be done safely- without causing bleeding complications, which have been the main risks of previous thrombolytic treatments.

The purpose of this study is to assess the long-term out-of-hospital treatment of patients with proximal venous thrombosis through the administration of subcutaneous low-molecular-weight heparin (tinzaparin sodium) versus low-molecular-weight heparin followed by warfarin sodium.

The purpose of this study is to document the long-term outcome or prognosis of patients diagnosed with upper extremity deep-vein thrombosis who are treated with Fragmin (dalteparin sodium injection) for three months.

Venous thromboembolism affects around 10 million people per year worldwide, however, despite its high incidence, there is no systematic review or randomized trial focused on the treatment of patients with recurrent deep vein thrombosis (DVT) and/or or pulmonary embolism (PE) during anticoagulant treatment. The objective was to compare the use of Rivaroxaban plus Aspirin versus Acenocoumarol in patients with recurrent venous thromboembolism treated with rivaroxaban.

Hepatocellular carcinoma (HCC) is the fifth most common neoplasm worldwide and the third most frequent cause of death from cancer in the world. Hepatocellular carcinoma is responsible for significant morbidity and mortality in cirrhosis. Most cases of HCC occur in the setting of cirrhosis and, therefore, prognosis is determined not only by factors related to the tumor but also by factors related to cirrhosis (1). According to previous reports, the incidence of HCC with partial portal vein thrombosis (PVTT) ranges between 44% and 62.2%. HCC associated with PVTT has a poor prognosis. It may lead to intrahepatic metastasis, liver dysfunction, and portal hypertension. The median overall survival for HCC patients with untreated PVTT is only 2.7 months (2). It was suggested that HCC with PVTT should be classified as stage C based on Barcelona Clinic Liver Cancer; it is no longer surgically treatable. Compared with conservative treatment, TACE is a safe and effective therapy for such cases. However, this modality for treatment might be associated with mortality (3). As far as we know, there is no studies of short-term survival in patients with HCC and PVT after TACE in our locality. Our study aims to determine frequency of short-term mortality (< 3month) among HCC patients with PPVT after TACE, and to explore its predictors.

Arterial and venous thrombi play an important role in various vascular diseases such as myocardial infarction, stroke, transient ischemic attacks (TIA) and pulmonary embolism. These thromboembolic disorders are the leading causes of morbidity and mortality worldwide. A non-invasive method for the quantitative and effective detection of thrombi in the whole body has not yet been established. In spite of the available techniques, 30% to 40% of ischemic strokes "cryptogenic" (undetermined cause, the source of thromboembolism is never identified). Possible causes of cryptogenic stroke atherosclerosis include in the aortic arch or intracranial arteries. A plaque in the arch or other large vessels could be an important source of cryptogenic strokes, however, are those difficult to detect by routine methods. The approach of thrombus targeted molecular imaging could identify potentially troublesome plaques early on before they become a dangerous rupture. The hypothesis is that the radiotracer 18F-arterial GP1 and venous thrombi using positron emission tomography (PET) can be made visible. The primary goal is the potential applicability of the substance as a PET tracer for diagnosing thrombi.