View clinical trials related to Venous Thrombosis.
Filter by:To study the safety and efficacy of early administration of Low Molecular Weight Heparin to patients with traumatic brain injury.
The purpose of this study is to compare two diagnostic interventions to improve the way D-dimer blood testing (MDA D-dimer) is used to diagnose first time symptomatic deep vein thrombosis.
To determine whether treatment and further investigation can be safely withheld in patients who present with suspected recurrent deep vein thrombosis (DVT) and have either a (i) negative D-Dimer or (ii) a positive D-Dimer with normal serial compression ultrasound.
The purpose of this study is to determine whether elastic compression stockings used for 2 years are effective in preventing the post-thrombotic syndrome in patients with symptomatic proximal deep venous thrombosis.
The assessment of patients with suspected deep vein thrombosis (DVT) is a common clinical scenario that, despite major advances in diagnostic testing, continues to be challenging. The diagnosis of DVT remains problematic in: - patients with suspected first DVT who have a moderate or high pre-test probability (PTP) for DVT and a normal compression ultrasound (CUS); - patients with suspected recurrent DVT; and - patients in whom CUS or contrast venography is technically difficult or not feasible due to patient characteristics. In patients with suspected first DVT who have a moderate or high PTP and a normal CUS, DVT occurs in up to 10% of cases. Thus, additional diagnostic testing is required, such as venography or serial CUS, so that DVT is not missed, but these approaches are costly and invasive. In patients with suspected recurrent DVT, currently used diagnostic approaches are problematic because they all have limitations in differentiating old disease from true recurrent disease. CUS is technically difficult in selected patients, particularly those who are obese. Contrast venography is the gold standard diagnostic test for DVT to which all other diagnostic venous imaging modalities for DVT are compared and judged. The Food and Drug Administration (FDA) requires that a new diagnostic test for DVT be assessed against venography. [99mTc] ThromboView® is a novel diagnostic test based on a 99mTc-labeled monoclonal antibody specific for D-dimer fragments of cross-linked fibrin that are found in acute DVT. After intravenous injection of [99mTc] ThromboView®, there is uptake of the monoclonal antibody by acute, D-dimer rich, venous thrombi. This is visualized with nuclear medicine imaging as an area of increased radioisotope activity that corresponds to the location of DVT. Based on the biologic and imaging characteristics of [99mTc] ThromboView®, this diagnostic test has the potential to: - identify small non-occlusive proximal DVT or distal DVT in patients with a moderate or high PTP and normal CUS; - differentiate old from new DVT in patients with suspected recurrent DVT; - diagnose or exclude DVT in patients in whom CUS is not technically feasible; and - provide an alternative to venography that is non-invasive, has no contrast-related toxicity and is easily administered. The present study is the first phase II clinical trial of [99mTc] ThromboView® in patients with suspected initial or recurrent DVT in whom DVT has been confirmed or excluded by venography. A phase II clinical trial to investigate the diagnostic accuracy of [99mTc] ThromboView® is justified because: - ThromboView® was well tolerated, with no significant toxicity in studies involving animals and healthy volunteers; and - it has shown promise in Phase I trials as a non-invasive diagnostic test for acute DVT.
Electrical stimulation of the foot can increase blood flow out of the leg. This increased blood flow can prevent blood clots from forming in the leg veins. Blood clots in the leg veins can break off and form life-threatening blood clots in the lungs. Intermittent external pneumatic (air) compression of the foot is already used to increase blood flow in at risk patients. Hypothesis: Electrical stimulation of the foot increases blood flow out of the legs to the same degree as intermittent external pneumatic (air) compression of the foot.
The purpose of this study is to learn if BMS-562247 can prevent blood clots in the legs and lungs in men and women following unilateral total knee replacement surgery. The safety of this treatment will also be studied.
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.
Patients diagnosed with pulmonary embolism (blood clot in the lung) or deep vein thrombosis (blood clot in a leg vein) are at risk for these blood clots to reoccur. Anticoagulant (blood-thinning) drugs are normally given immediately after the clot is discovered and are continued for a period of 3 or 6 months during which time the risk for recurrence is highest. Research has shown that when oral anticoagulants are used appropriately during this period, patients are less at risk for a recurrent blood clot and this risk reduction outweighs the potential for bleeding to occur. In this study, patients who had a blood clot in the lung or in a leg vein and completed 6 months of treatment with daily oral vitamin K antagonists (acenocoumarol or warfarin) or once-weekly injections of SR34006 (a new anticoagulant drug) will receive an additional 6 months of once-weekly SR34006 injections or injections of a solution containing no drug (placebo). This trial will evaluate whether patients treated for an additional 6 months with SR34006 have fewer recurrences of blood clots when compared to patients treated with placebo. Assignment to either SR34006 or placebo will be purely by chance. Neither the patients nor their doctors will know which treatment is being given.
Patients who have deep vein thrombosis (blood clot in the leg) will be treated in this study. The purpose of the study is to compare the safety and effectiveness of a new injectable anticoagulant (blood thinning) drug administered once each week, SanOrg34006, with the standard way of treating deep vein thrombosis. The standard treatment includes injections or infusions of an anticoagulant drug (Unfractionated Heparin or low molecular weight heparin) for about a week, followed by vitamin K antagonist (VKA) anticoagulant tablets (warfarin or acenocoumarol) which are taken by mouth. Eligible patients will be assigned to treatment with either SanOrg34006 or the combination of Unfractionated Heparin or low molecular weight heparin plus a VKA (warfarin or acenocoumarol) by random chance. Treatment will be known to both patients and their doctors.