View clinical trials related to Thrombosis.
Filter by:To evaluate and compare the efficacy and safety of SBRT sequential TACE combined with sorafenib versus sorafenib alone in the treatment of unreactable HCC with PVTT.
The JETi Registry is a prospective, single-arm, multi-center study to collect real-world data on the safety, performance, and clinical benefits of the JETi® Peripheral Thrombectomy System (JETi System) for the treatment of acute/subacute thrombosis in the peripheral vasculature. This post-market study will register approximately 280 subjects at approximately 30 centers in the US and Europe. Subjects participating in this registry will be followed through their 12-month follow up visit.
The outbreak at covid-19 is caused by the SARS-CoV-2 virus. This virus can be responsible for severe respiratory failure but also for extra-respiratory organ dysfunctions associated with severe inflammatory stress. The endothelium is an important structure of the blood vessels and is implicated in the organ failure of many patients admitted in intensive care units. It could be affected by the virus and its alteration may explain the organ dysfunction of covid-19 ICU patients as well as the thrombotic processes frequently obstructed in this infection.
Patients with COVID-19 in the Intensive Care Unit (ICU) or hospitalized with severe form have a poor prognosis (almost 30% rate of death). They present often a high cardiovascular risk profile (almost 30% of hypertension and 19% of diabetes). Troponin has been described to be elevated in a high proportion of patients (one fifth of all patients and 50% of non-survivors) suggesting the possibility of cardiomyopathies. High levels of DDimers (81% of non survivors) and fibrin degradation products are also associated with increased risk of mortality suggesting also the possibility of venous thromboembolism. Therefore, screening for cardiomyopathies and venous thromboembolism could represent an important challenge for patients with COVID-19 management.
The standard or usual treatment for patients diagnosed with deep vein thrombosis or pulmonary embolism is treatment with blood thinners (called anticoagulants). While treatment of blood clots with blood thinners is effective, some research has shown that adding a statin (medication used to lower cholesterol) may give extra protection. It is thought that statins can improve how cells along the walls of the vein control inflammation, which can prevent new blood clots from forming. The medication in this study, rosuvastatin, is approved in Canada for use as a cholesterol-lowering medication. The use of rosuvastatin in this study is considered investigational. This means that Health Canada has not approved the use of rosuvastatin as a treatment for blood clots. However, it has been approved for use in this research study. The purpose of this study is to examine if adding a statin (rosuvastatin) to the usual blood thinner treatment will decrease the risk of another blood clot forming. The investigators also hope to discover if taking a statin reduces damage to your veins. To do this, some of the participants in this study will get rosuvastatin and others will receive a placebo (a substance that looks like the study rosuvastatin but does not have any active or medicinal ingredients). The placebo in this study is not intended to have any effect on your blood clot. A placebo is used to make the results of the study more reliable.
Venous thromboembolism (VTE) can be the earliest sign of cancer. Identifying occult cancers at the time of VTE diagnosis may lead to significant improvement of patients' care. This is also an upmost issue for patients who want to know if an underlying cancer might have triggered the VTE. An individual patient-level data meta-analysis (IPDMA) supports extensive screening strategies for occult cancer especially based on FDG PET/CT, and suggests that the best target population for cancer screening would be patients with unprovoked VTE older than 50 years of age (6.7% in patients aged 50 years or more vs. 1.0% in patients of less than 50 years (OR: 7.1, 95% CI: 3.1 to 16%).
The main venous thromboembolism (VTE) risk prediction model for ambulatory cancer patients is Khorana. Cancer thrombosis is associated with elevated thrombin generation. Its quantification is a promising method for evaluating patient's thrombotic profile. This study aims to develop a predictive model of VTE risk in ambulatory cancer patients, combining thrombosis biomarkers (D-dimers and thrombin generation potential) with the Khorana score. This is a prospective observational study that includes newly diagnosed cancer patients proposed for anti-tumor treatment (chemotherapy, immunotherapy or targeted therapies). Patients with disease progression are allowed if chemotherapy-free for 3 months. A 6-month mean incidence of VTE 6-10% is expected, requiring a sample size of 600 patients. Blood sample is collected at inclusion to analyze thrombosis biomarkers and blood count. The primary endpoint is the occurrence of symptomatic or incidental VTE within 6 months of inclusion. Models will follow a logistic approach with K-fold cross-validation (k=10). Model quality will be assessed with Akaike Information Criterion (AIC) and Bayesian Information Criterion (BIC). Decision for entering predictors in multivariate models will be based on p <.10 in the univariate analysis.
The clinical significance of pulmonary embolism (PE) limited to the subsegmental pulmonary arteries, so called isolated subsegmental pulmonary embolism (SSPE), remains controversial. Whether isolated SSPE represents "true" PE, a clinically more benign form of PE, a physiologic lung clearing process, or a false positive result (artifact) is currently unclear and hence, whether patients with isolated SSPE benefit from anticoagulant treatment is uncertain. Despite growing evidence from observational studies that withholding anticoagulation may be a safe option in selected patients with isolated SSPE (i.e., those without concomitant deep vein thrombosis, cancer, etc.), most patients with isolated SSPE receive anticoagulant treatment, which is associated with an increased risk of bleeding. The overall objective of the randomized controlled SAFE-SSPE trial is to evaluate the efficacy and safety of clinical surveillance without anticoagulation compared to anticoagulation treatment in low-risk patients with isolated SSPE.
This registry, currently being established will ensure consistency of data collection and provide safety information in non high-risk APS patients currently on DOACs.
The main objective of this study is to compare the efficacy and safety of aspirin, low molecule heparin and rivaroxaban for preventing catheter-related thrombosis in middle-to-high-risk ambulatory patients with cancer and implantable venous access ports.