View clinical trials related to Venous Thrombosis.
Filter by:This study will assess the safety and effectiveness of a drug called apixaban for the treatment of upper extremity deep vein thrombosis (UEDVT) and clinically important bleeding. Subjects will receive apixaban 10 mg by mouth twice a day for 7 days, followed by 5 mg by mouth twice a day for a duration of 11 weeks. There will be a followup visit at 12 weeks for all participants. A total of 375 are to be enrolled. The study drug has been approved to treat blood clots. The study drug has not been studied uniquely for the treatment of blood clots in the upper extremity however. Because it is unknown whether it is effective to treat blood clots in the upper extremity, the principal investigator cannot guarantee that there will be benefit to study subjects; however, it is hoped that the information obtained from this research study will help treat patients in the future.
Background: Venous thromboembolism (VTE), which includes deep vein thrombosis (DVT) and pulmonary embolism (PE), is the third most common cardiovascular disorder after myocardial infarction and stroke. VTE occurs in about 1 person per 1,000 per year, increasing dramatically in patients with cancer to about 25 per 1,000 per year. Among the known risk factors of VTE, cancer is one of the most potent. Patients with cancer have a 7- to 28-fold higher risk for VTE than non-cancer patients. VTE has important implications for the care of cancer patients, including reduced life expectancy, high rates of VTE recurrence both while on and after stopping anticoagulation, the need for chronic anticoagulation with related adverse drug reactions, and delays in cancer therapies. Clinical dilemma: Current clinical guidelines recommend a minimum of 3-6 months of anticoagulation with weight-adjusted low molecular weight heparin (LMWH) in cancer patients with VTE. However, there are no recommendations beyond the initial 6 months of therapy due to the lack of data on extended duration therapy for cancer-associated thrombosis (CAT). This leads to variability in physician practices, with some continuing weight-adjusted LMWH therapy beyond 6 months. This poses concern because, while the goal is to prevent recurrence of VTE, the risk of major bleeding with prolonged weight-adjusted LMWH therapy is significant. Potential solutions: There is a lack of data to inform on VTE treatment in cancer patients beyond the initial 3-6 months of anticoagulation. We propose that after a minimum of 3-6 months of therapeutic dose anticoagulation, the use of prophylactic doses of LMWH will have an acceptable and adherence profile in cancer patients with VTE. The data obtained from this study will help inform physician practices. Design: This is a multicentre, open-label study of enoxaparin (40 mg subcutaneous injection, once daily) for additional 6 months after an initial minimum 3-6-month course of therapeutic dose anticoagulant therapy. Patients: 150 patients with VTE secondary to cancer will take part in this multicentre study conducted in 8 Canadian centres within Quebec, Ontario and Nova Scotia. Study Outcomes: The primary objective of the study is to determine the rate of recurrent VTE in patients receiving prophylactic dose enoxaparin for secondary VTE prophylaxis after an initial minimum 3-6 months of anticoagulation. The secondary objective is to determine the safety profile of prophylaxis dose enoxaparin for secondary VTE prophylaxis after an initial 3-6 months of anticoagulation. This includes determining for all subjects: 1) cumulative incidence of major bleeding events; 2) cumulative incidence of clinically relevant non-major bleeding events; 3) cumulative incidence of minor bleeding event, and 4) overall survival during follow-up.
This study will evaluate the safety profile of GMI-1271 and its effect on thrombus resolution in patients with distal calf vein Deep Venous Thrombosis (DVT).
To investigate the incidence of pre- and early postoperative deep venous thrombosis in patients undergoing hepatobiliopancreatic surgery, as well as potential corresponding risk factors with special attention to circulating tumor cells.
The trial is an open-label, randomized, trial examining novel biomarkers of thrombosis in patients managed with rivaroxaban vs. standard care following treatment of pulmonary embolism (PE) with catheter-guided alteplase. Patients >18 years old who present with PE and are managed with catheter-guided alteplase will be screened for study inclusion. Patient's meeting inclusion/exclusion criteria will undergo informed consent. Immediately following completion of alteplase infusion, patients will be randomized to receipt of rivaroxaban 15 mg oral bid for 21 days followed by 20mg oral daily or continuation on unfractioned heparin or low-molecular weight heparin with initiation of warfarin adjusted to INR of 2-3. Blood samples will be taken within 2 hours of CDT completion prior to receipt of study treatment (study day 1), at 8h-12h, 24h, 48h, 5d (or prior to hospital discharge), and at 30 day follow-up. Clinical endpoints, including bleeding, evidence of thrombosis progression, and death will be tracked during index hospitalization and at follow-up 30 days post-discharge.
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.
The purpose of this study is to evaluate the safety and effectiveness of the LUMIFI with Crux VCF System for deployment of the Crux VCF. The study will compare the method of Crux VCF deployment using the LUMIFI with Crux VCF System (IVUS guidance) with the historical results of the Crux VCF System (fluoroscopic guidance). The study will include enrollment into a roll in phase consisting of 2 study subjects per site prior to enrollment into the primary treatment phase for primary analyses. The purpose of the roll in phase is to assure compliance with site training on the use of the investigational device and protocol workflow.
The main objective of our study is to determine the diagnostic performance of an ultra-portable ultrasound (V-Scan®) device for emergency compression ultrasound when used by experienced ermergency doctors searching for proximal deep vein thrombosis (DVT) in patients with no history of DVT. The gold standard is Doppler ultrasound of the lower limbs performed by a vascular exploration expert.
Measurement of D-Di (D-Dimer) levels using the in-vitro diagnostic reagent STA® - Liatest® D-Di and STA® - Liatest® D-Di PLUS in plasma samples from patients diagnosed with Deep Vein Thrombosis (DVT) Data from this study may be used in conjunction with data from the prospective study entitled "STA® - Liatest® D-Di - Exclusion of Venous Thromboembolism (VTE)", NCT01221805, the DiET study,
Venous thromboembolism (VTE) is a common condition that occurs when a clot develops in one of your veins. It affects 5% of the population and is the third most common circulatory condition after heart attack and stroke. People who experience a clot in their vein can have significant long term problems with swelling and discomfort. The investigators call this post thrombotic syndrome (PTS). They can also be at increased risk of having another clot occur. People who have ilio-femoral clots are more likely to have more severe leg swelling and pain than those who have clots in smaller veins. They are also more likely to have problems returning to their normal daily routines and may need more hospital visits. The current standard of care involves treating patients with anticoagulants (blood thinners) because it has a low risk of bleeding risk and is inexpensive. Blood thinners prevent the clot from growing bigger while your own body dissolves the clot over time. The type of clot you have is the most severe form of DVT. Some experts advise early removal of the clot - resulting in symptom relief sooner and possibly reducing the risk of PTS. This is in addition to the standard treatment with blood thinners. There are currently two options for physically removing these clots. One method involves placing an intravenous catheter into your leg and injecting medication directly where the clot is situated. This dissolves the clot. This method is called Catheter Directed Thrombolysis (CDT). The second method, Percutaneous Mechanical Thrombectomy (PMT), involves placing an intravenous catheter into your leg and breaking down the clot mechanically and suctioning it out of the vein - creating good blood flow again to your leg. Both methods require injection of contrast dye and a special x-ray machine to see where the clot is and ensure that the entire clot is removed. CDT is very expensive and has an increased risk of major bleeding. PMT is much less expensive and has a lower risk of bleeding. The doctors at The Ottawa Hospital do not typically recommend CDT, nor do we commonly perform PMT for this patient population here. The investigators would like to enroll 26 participants with ilio-femoral DVTs and perform PMT to see if they can achieve better outcomes than for those who have just had our routine treatment of blood thinners. The investigators are only conducting this study here at The Ottawa Hospital, General Campus. They will follow the progress of participants for 6 months. The device the investigators are using (Angiojet Ultra Thrombectomy System) is already approved by Health Canada for this procedure.