View clinical trials related to Thromboembolism.
Filter by:Cancer patients have an increased risk of developing blood clots in the veins compared to non-cancer patients. Cancer patients who develop blood clots can lead to reduced life expectancy, delayed cancer treatment, and decreased quality of life. Prevention is the most effective way to decrease the complications associated with blood clots in the veins. Although previous clinical trials have shown some benefit on the use of medication to prevent blood clots in the veins in ambulatory cancer patients, these studies have been inconclusive in demonstrating that existing blood thinners significantly reduce the rate of blood clots in cancer patients. One possible explanation relates to the fact that these studies have included a large proportion of cancer patients who are a low risk of developing blood clots in the veins. We are proposing to identify cancer patients who are at a high risk of developing blood clots by using a validated tool at the time of their cancer diagnosis. The identified high risk cancer patients will be asked to participate in a trial to test the safety and efficacy of a new oral medication that has been used to prevent blood clots in patients undergoing surgery. We are enrolling 574 patients in 7 Canadian centers (Ottawa, Halifax, Montreal, Vancouver, Sault Ste. Marie, Toronto and Hamilton). 287 patients will receive the study drug and 287 will receive an inactive substance. Analysis will be performed to assess the safety and the superiority of the study drug.
Patients admitted to the intensive care unit are at high risk of developing clots in the veins of the lower extremities. The objective of this study is to examine whether the use of a device that provides intermittent compression to the legs in addition to the use of low-dose blood thinners, provides an additional protection when compared to the use of blood thinners alone. Patients who are admitted to the intensive care unit are receiving low-dose blood thinners to prevent clots are candidates for this study. Patients who are enrolled will continue to receive blood thinners but some will additionally receive the leg compression. The additional use of leg compression may provide protection from clots. The main side effect is possible skin abrasions but this is usually mild. The study is sponsored by King Abdullah International Medical Research Center(KAIMRC) and King Abdulaziz City for Science and Technology(KACST) and will be conducted in several hospitals in Saudi Arabia, Canada, Australia, Brazil and possibly other countries. The study started July 2014 and is to continue for 4 years.
The purpose of this study is to determine how frequently children undergoing elective neurosurgical procedures develop blood clots in the deep veins of the legs while hospitalized. The information gained from this study will help us determine when children children need to receive therapy to help prevent this type of blood clot from forming.
This study is a multicenter post authorization observational study. Cancer patients diagnosed with non high risk VTE and are followed up in an outpatient setting will be treated with LMWH and the data will be recorded. Since this is an observational study there are no specific treatment protocols, i.e., patients will be treated according to the best investigator's criteria. Treatment protocol will be based on the routine treatment practice of the involved investigator. Patients to enroll will be cancer patients diagnosed for VTE and who are able to receive outpatient LMWH treatment. There will be no specific hypothesis to be tested.
Rivaroxaban has been developed in the various clinical settings, prevention of venous thromboembolism (VTE)after major orthopedic surgery, prevention of stroke in atrial fibrillation, and in the treatment of acute coronary syndromes. And, in the EINSTEIN-pulmonary embolism (PE) and EINSTEIN-deep venous thrombosis (DVT) programs, rivaroxaban showed non-inferior to standard therapy for the treatment of PE and DVT. However, there has been limited experience of rivaroxaban with secondary VTE prophylaxis in cancer patients. Although cancer-associated DVT or PE was included in previously mentioned EINSTEIN programs, only approximately 5% of the total populations were cancer patients in these studies. Thus, investigators could not automatically translate the results of these studies into the real practice management of cancer-associated VTE patients. Moreover, until now, new oral anticoagulants, including dabigatran and rivaroxaban, have been compared to long-term warfarin therapy, which were well-known inferior agent, but not low molecular weight heparin. In this sense, investigators feel that new oral anticoagulants, particularly rivaroxaban, should be re-investigated in this highly specific patients group. Therefore, investigators are planning to conduct a prospective study evaluating the efficacy and safety of rivaroxaban in Korean patients with cancer-associated VTE.
Venous thromboembolic events (VTE), either deep vein thromboses or pulmonary emboli, are important complications in patients undergoing knee or hip arthroplasty. This multicenter Clinical Registry is aimed at collecting large volume clinical effectiveness data of ActiveCare+S.F.T® mobile compression device +/- aspirin in lowering the potential risk of venous thromboembolism (VTE) prophylaxis in patients undergoing primary lower extremity total joint arthroplasty. The results can then be compared to pharmacology protocols.
To compare the efficacy and safety of prophylaxis of venous thromboembolism by Nadroparin during hospitalization to long-term usage in patients with advanced lung cancer treated by chemotherapy and/or radiotherapy.
Patients undergoing major colorectal surgery are at increased risk for VTE (deep venous thrombosis) compared with patients undergoing other general surgical procedures (Bergqvist et al. Dis. Col. Rectum. 2006; 49: 1620-1628.) The reported incidence of symptomatic VTE after colorectal surgery is approximately 4% (Monn, F. et al. JACS. 216; 2013: 395-401). However, the reported incidence of VTE after colorectal surgery in prospectively followed patients managed with perioperative venous thromboprophylaxis undergoing screening venography prior to hospital discharge ranges from 9 to 20% (Bergovist et al. NEJM 346; 2002: 975-980; McLeod et al. Ann. Surg. 233; 2000: 438-444; ENOXACAN Study group. Brit. J. Surg. 84; 1997: 1099-1103. The Surgical Care Improvement Project (SCIP) and the American College of Chest Physician (ACCP) guidelines recommend that venous thromboprophylaxis be initiated within 24 hours of surgery. However, it is believed that deep venous thrombosis occurs during surgery, rather than in the postoperative period, justifying preoperative initiation of venous thromboprophylaxis. This practice is accompanied with a theoretically higher risk of bleeding complications. Currently there is no consensus on the precise timing of VTE prophylaxis after major colorectal surgery, as demonstrated by the vague guidelines established by the ACCP and SCIP. Current studies on VTE prophylaxis report preoperative initiation of VTE prophylaxis. However, majority of surgeons at our institution begin heparin postoperatively given concern for bleeding complications with preoperative dosing of heparin. The purpose of this study is to prospectively evaluate the incidence of VTE and major bleeding complications in patients undergoing major colorectal surgery who are treated with preoperative or postoperative venous thromboprophylaxis and to help establish more stringent guidelines on the optimal timing of VTE prophylaxis.
The purpose of this study is to evaluate major adverse bleeding risks, and thromboembolic event rates post radiofrequency (RF) ablation. The primary goal is to establish safety of dabigatran use for peri-procedural anti-coagulation after left atrial catheter radiofrequency ablation, or cryoablation procedures.
The WATCHMAN LAA Closure Technology is designed to prevent embolization of thrombi that may form in the LAA, thereby preventing the occurrence of ischemic stroke and systemic thromboembolism. The objectives of this observational, prospective, non-randomized multicenter study are (1) to compile real-world clinical outcomes data for WATCHMAN LAA (left atrial appendage) Close Technology in patients who are implanted with the WATCHMAN device in a commercial clinical setting and (2) to collect real-world usage data that may be needed for reimbursement of WATCHMAN technology in certain countries.