View clinical trials related to Thromboembolism.
Filter by:To evaluate the role of exercise hemodynamic testing in the diagnostic workup for patients with dyspnea on exertion referred to the catheterization lab.
Venous thromboembolism (VTE) is a common cause of morbidity and mortality among critically ill patients. No uniform standard model of VTE risk for critically ill patients was formatted by now. In 2020, Viarasilpa et al. developed the ICU⁃VTE rating table, mainly for ICU patients. However, it lacks validation. We examined and compared how well the ICU-VTE score predict and stratify VTE risk in comprehensive ICU patients.
Currently, Enoxaparin is the usual prophylactic anticoagulant treatment at the acute and sub-acute phases of spinal cord injury (SCI). Patients at the sub-acute phase of SCI (rehabilitation) will be given either Enoxaparin 40 mg/day (control) or Apixaban 2.5-5 mg twice a day. Apixaban dose will be determined by the treating physician. Treatment will be continued for either 6 or 12 weeks following injury (for AIS grades C-D and A-B respectively). Endpoints: Venous thromboembolism will be evaluated by D-Dimer test every 2 weeks and an ultrasound doppler at the end of the treatment. Bleeding events will be recorded and hematocrit will be monitored every two weeks.
This multicentre, randomised geko™ venous thromboembolism (VTE) prevention study will prospectively collect clinical data on VTE occurrences in immobile patients after stroke, who will be randomised, on a 1:1 allocation, to receive either standard of care (Intermittent Pneumatic Compression) or geko™ neuromuscular electrostimulation device. The aim is to assess the prevention of VTE during a follow-up period of 90 days (three months) post-randomisation.
This is an observational study in which data from people with atrial fibrillation who received or are currently receiving the drug apixaban to prevent thromboembolic events (blood clots that travel through the blood stream to plug another smaller vessel) are studied. In observational studies, only observations are made without specified advice or interventions. Atrial Fibrillation (AF) is a condition of having irregular and often rapid heartbeat. AF can lead to the formation of blood clots in the heart and to embolism, a condition that happens when a blood clot travels through the blood stream to plug another smaller vessel. This can lead to serious and life-threatening conditions, such as a stroke. A stroke occurs because the brain tissue beyond the blockage no longer receives nutrients and oxygen so that brain cells die. As strokes arising from AF can involve extensive areas of the brain, it is important to prevent them. Blood clots are formed in a process known as coagulation. This is a complex series of steps that must occur in a specific sequence. Medications are already available to prevent the formation of blood clots. When taken by mouth (orally), they are known as oral anticoagulants (OACs). OACs decrease the risk of the above-mentioned serious and life-threatening conditions. The main side effect of OACs is an increase of the risk of bleeding. In the beginning, there was only one main class of OAC called vitamin k antagonists (VKAs) prescribed in usual practice. VKAs work by lowering the number of coagulation factors in the blood. Over the years, newer OAC medications have become available which act more specifically by interrupting one or more of the coagulation steps and preventing the blood from clotting. The study treatment apixaban works by blocking a very specific step in the blood clotting process, the activation of a protein called Factor Xa. Newer OACs are also called direct oral anticoagulants (DOACs). DOACs require less monitoring by doctors, but an increased risk of bleeding remains. Bleedings can be an important reason for stopping therapy. One type of bleeding called patient relevant bleeding (PRB) has not been intensely studied so far. PRB is a type of minor bleeding which is bothersome, but which does not require medical treatment as it has no important impact on a person's health. It needs to be distinguished from so called clinically relevant non-major bleeding (CRNMB). CRNMB stands for a type of bleeding which may have an important impact on a person's health and needs medical attention, but when treated, is not likely to have a negative impact on a person's health. Only limited information is available for PRB and CRNMB related to the treatment with DOACs in real-world settings. In this study, researchers want to collect more data about how often PRB and CRNMB occur in people with AF treated with apixaban. In addition, researchers want to learn how these medical problems affect the treatment with apixaban under real-world conditions. To do this, researchers will count the number of participants in usual practice - who have PRB or CRNMB and who are being treated with apixaban at the time of this ongoing study or who have recently taken this drug, but have switched to another OAC, - who have PRB or CRNMB and have decided to stop or to continue their treatment with apixaban. In addition, characteristics of each participant and the reason for continuation or discontinuation of apixaban will be collected and described. The data for this study will come from patient surveys. Besides this data collection, no further tests or examinations are planned in this study. The participants who take their apixaban treatment during this study will receive their treatments as prescribed by their doctors during routine practice according to the approved product information. The data will be from participants who will be identified for the survey using last 12-months data from the database called HealthCore Integrated Research Database (HIRD). The data will be collected for each participant for 12 months before the participant starts the survey. The study will end as soon as the planned number of surveys has been reached or at the end date of the study.
Little is known about the current management status of venous thromboembolism (VTE) in Southwestern China. We aimed to investigate the status of anticoagulant administration in VTE in Southwestern China and assess the potential predictors of deep vein thrombosis (DVT) complicated pulmonary embolism (PE). We extracted data from YiduCloud database from December 2006 to November 2018 and performed a cross-sectional survey of VTE. The demographics, laboratory tests, and anticoagulants were collected and analyzed in the logistic regression model, classification tree and Random Forest model.
This is an observational study in which patient data from the past on venous thromboembolism (VTE) in people with cancer is studied. In observational studies, only observations are made without specified advice or interventions. People with VTE have problems due to the formation of blood clots in the veins. Blood clots can reduce the flow of blood to vital organs such as the lungs, which can lead to their damage. VTE can also be "recurrent". This means that the blood clots have returned after treatment. People who have cancer are more likely to develop VTE, recurrent clots, and bleeding on blood thinning treatments. To prevent the formation of new or recurrent clots in people with cancer, a newer type of blood thinner is available, called direct-acting oral anticoagulant (DOAC). Rivaroxaban and apixaban are the most used DOACs in the US. They work by blocking a certain step in the blood clotting process, the activation of a protein called Factor X. Previous studies show that DOACs may reduce clot risk compared to other available treatments but may potentially lead to more frequent bleeding. Studies looking at these points in direct comparison of rivaroxaban and apixaban a currently missing. Therefore, this study will collect real-world data from the US to learn how well rivaroxaban works and how safe it is compared to apixaban in people with cancer and VTE who are at low risk for bleeding. To do this, researchers will look at the proportion of patients that will develop: - recurrent blood clots in the veins after treatment - bleeding in a critical organ - bleeding that requires a hospital stay within 3 and 6 months after participants had a VTE that was treated with rivaroxaban or apixaban. De-identified data collected will cover 12 months before and at maximum 6 months after this VTE. They will come from US electronic health records and will cover the years 2012 to 2020. No visits or tests are required as part of this study.
Venous thromboembolism is a serious complication after total hip replacement (THR) and total knee replacement (TKR). Previous studies have reported the incidence of both asymptomatic and symptomatic deep vein thrombosis (DVT) after TKR were higher in Taiwan than other countries in Asia. Therefore, the usage of prophylactic antithrombotics should be considered. The efficacy and safety of Xarelto (Rivaroxaban) for preventing venous thromboembolism has been proved. However, there is a lack of study using prospective design to evaluate the efficacy and safety of Xarelto after THR and TKR for Taiwanese. In this study, the investigators use a randomized controlled trial design comparing the incidence of DVT, pulmonary embolism, and complications between intervention and control groups.
Aim of our study is to find frequency and risk factors for venous thromboembolism development in patients who underwent surgery for incisional ventral hernia. There were 240 patients enrolled in our retrospective observational cohort study. Included patients were operated for incisional hernia in Saveljev University Surgery Clinic from January 2018 to December 2019. Compression duplex ultrasound of lower legs veins was performed in 2-4 days after surgery for all participants. The primary endpoint was the occurrence of the venous thromboembolism event, including pulmonary embolism.
Researchers are looking for a better way to prevent the formation of blood clots in people who have or have had: - an irregular and often rapid heartbeat - a blocked blood flow to the heart - a blocked or reduced blood flow to a part of the brain. When a blood clot forms in the body in patients with the above conditions, it may block vessels of the heart, the brain and/or other parts of the body. This may lead to heart attack, stroke and other serious complications. Blood clots are formed in a process known as coagulation. This is a complex series of steps that must occur in a specific sequence. Medications are already available to prevent the formation of blood clots. They work by interrupting one or more of the coagulation steps and are therefore known as anticoagulants. They decrease the risk of the above-mentioned complications. The study treatment asundexian works by blocking a very specific step in the blood clotting process, the activation of a protein called Factor XIa. Due to its very specific action that is not thought to be involved in the main blood clotting steps needed to stop bleeding (e.g. like from a cut finger), asundexian is expected to reduce the risk of bleeding that is still seen with existing anticoagulants. Since people who need an anticoagulant may also have liver problems, information on asundexian use in this group is needed. The main purpose of this study is to learn how asundexian moves into, through and out of the body in participants with a mild or moderate reduction in liver function compared to participants with normal liver function who are similar in age, weight, and gender. To answer this question, researchers will measure - the average highest level of asundexian in the blood (also referred to as Cmax) - the average total level of asundexian in the blood (also referred to as AUC). that were reached after intake of a single tablet of asundexian. The researchers will compare these data between participants with reduced liver function and matched participants with normal liver function to look for differences. Each participant will be in the study for up to 4 weeks. Participants will stay in-house for 6 days, starting the day before taking asundexian. In addition, two visits to the study site are planned. During the study, the doctors and their study team will: - do physical examinations - check vital signs - take blood and urine samples - examine heart health using an electrocardiogram (ECG) - ask the participants questions about how they are feeling and what adverse events they are having. An adverse event is any medical problem that a participant has during a study. Doctors keep track of all adverse events that happen in studies, even if they do not think the adverse events might be related to the study treatments.