View clinical trials related to Pulmonary Embolism.
Filter by:SONIC-PE is a multicenter, prospective, single-arm study of 10 patients with bilateral PE treated with ultrasound-facilitated, catheter-directed lower-dose fibrinolysis (total dose 8 mg tPA given as 2 mg/hour/catheter over 2 hours) followed by 50 patients (total dose 6 mg tPA given as 3 mg/hour/catheter given over 1 hour) with the EKOS+™ system to determine its impact on the change in RV-to-LV diameter, refined Modified Miller Score, and distal pulmonary vascular blood volume as well as to assess International Society on Thrombosis and Haemostasis (ISTH) major bleeding.
The purpose of this study is to identify and validate new imaging biomarkers allowing an individual phenotyping of patient with venous thrombo-embolism (VTE), mainly in terms of recurrence risk assessment and to distinguish provoked from unprovoked VTE. To do so, the investigators will create a retrospective imaging database including multiple imaging modalities, performed at diagnosis of the VTE.
Lung perfusion scintigraphy with 99mTc-MAA and ventilation scintigraphy with Technegas (V/Q SPECT/CT) has been the cornerstone for the detection of pulmonary embolisms (PE) for many decades. In last two decades after the introduction of pulmonary CTA, general PE detection has shifted towards CTA and V/Q SPECT/CT has become the modality of choice for specific patient populations (iodine contrast allergy, poor kidney function, pregnancy, etc.) or indications (pre-operative risk stratification, chronic embolism detection, pulmonary hypertension). V/Q SPECT/CT acquisition is performed on a gamma camera, but this technique has distinct challenges and/or disadvantages. A potential alternative is the nowadays broadly available. 68Ga as a positron emitter allows PET/CT imaging. Replacing 99mTc with 68Ga in both MAA and aerosol suspension is easy and requires no modifications. However, 68Ga-V/Q with PET/CT will resolve many of the disadvantages of V/Q SPECT/CT. International studies have proven safety and feasibility of replacing 99mTc with 68Ga and preliminary work by international colleagues and our institute have shown validated preparations of the radiopharmaceuticals. However, in our institution, clinical translation is hampered by lack of data on technical acquisition parameters for our scanners. The aim of this small study is to get more insights into technical parameters for image acquisition, logistical feasibility of V/Q PET/CT, and confirm preliminary non-inferiority of this new technique over the current clinical standard (V/Q SPECT/CT).
Pulmonary embolism (PE) remains a high mortality and morbidity disease state. We have previously shown that use of a Pulmonary Embolism Response Team (PERT) can improve overall readmission, bleeding, and mortality outcomes. Unfortunately, PERT may still be underutilized from a national standpoint and may not be readily available in underserved areas. The utility of the current study is to investigate the implementation of an artificial intelligence (AI) program to differentiate patients at the highest risk of the PE spectrum to help efficiently identify those most appropriate for aggressive management. Furthermore, we will investigate the utility of an algorithm-driven protocol for activation of invasive interventions versus traditional PERT discussion and evaluate overall patient outcomes.
A new algorithm derived from only patient age and components of the complete blood count and basic metabolic panel can identify patients discharged from the hospital who may benefit from a blood thinner (called rivaroxaban) to decrease their risk of blood clots, and for whom the risk of bleeding is minimal. The purpose of this study is to evaluate the use of a pop-up alert, which will be seen by clinicians when a discharging patient has been identified as being someone for whom the risk of blood clots is high, but for whom bleeding risk is estimated to be low. The pop-up alert will be enabled in a sequential fashion for each group of hospitals in 1 month blocks. We will look to see if the pop-up alert changes the number of patients who receive rivaroxaban. We will also measure the outcomes of blood clots and bleeding among all discharging patients.
The investigators aimed to compare the image quality and diagnostic performance of DECTPA using lower concentration iodine contrast materials and using normal concentration iodine contrast materials in the evaluation of suspected pulmonary embolism.
Patients who have suffered a pulmonary thromboembolism used to reduce their activity levels because of the symptoms and the fear to suffer other pulmonary thromboembolism. These patients often have sequelae after the hospitalization that previous studies have associated with a lack of physical activity. The main objective of this research is to investigate the efficacy of a rehabilitation program for promotion higher activity levels in quality of life and self-perceived discapacity of thromboembolism patients.
Lower limb trauma requiring immobilization is a very frequent condition that is associated with an increased risk of developing venous thromboembolism (VTE). The TRiP(cast) score has been developed to provide individual VTE risk stratification and help in thromboprophylactic anticoagulation decision. The recent CASTING study had confirmed that patients with a TRiP(cast) score <7 have a very low risk of VTE and could be safely manage without prophylactic treatment. Conversely, patients with a score ≥ 7 have a high-risk of VTE and require a prophylactic anticoagulant treatment. Low molecular weight heparins (LMWH) have been shown to be effective in this indication. However, in the CASTING study, the 3-month symptomatic VTE rate was 2.6% in this subgroup despite LMWH prophylactic treatment. This result suggests that LMWH are not sufficiently effective in this particular subgroup of high-risk patients. Direct oral anticoagulants, and in particular rivaroxaban, may be an effective and safe alternative to LMWH. In the PRONOMOS study, comparing LMWH with rivaroxaban in patients who had undergone non-major lower limb surgery, the relative risk of symptomatic VTE was 0.25 (95% CI = 0.09 - 0.75) in favor of rivaroxaban 10mg. No significant increase in bleeding was found. In addition, as LMWH treatment requires subcutaneous daily injections, the use of rivaroxaban may positively impact patients' quality of life as well as being effective in medico-economic terms. The aims of this study are to demonstrate that rivaroxaban is at least as effective, easier to use and more efficient than LMWH in patients with trauma to the lower limb requiring immobilisation and deemed to be at risk of venous thromboembolism (TRiP(cast) score ≥ 7). High-risk patients are randomized to receive either rivaroxaban or LMWH. They are followed up at 45 days and 90 days to assess the occurrence of thrombotic events or bleeding, as well as their satisfaction with the treatment received.
There's no unified recommendation in clinical practice regarding adjusting dosages for different patient types, especially when adverse events occur. While rivaroxaban typically doesn't require coagulation monitoring, in elderly patients, particularly those with multiple medications, finding appropriate lab indicators becomes crucial to gauge its anticoagulant effect. This aids in evaluating precise rivaroxaban dosing for the elderly, balancing bleeding risks and recurrence. Clinical pharmacological studies suggest that drug pharmacokinetics and pharmacodynamics in different populations can guide dosage optimization. Hence, this study aims to provide a basis for optimizing dosing regimens in high-risk elderly patients in China by exploring pharmacokinetic and pharmacodynamic indicators in clinical practice.
From January 1, 2023 to December 30, 2023, patients who were suspected of pulmonary embolism and underwent CTPA examination at Nanyang Hospital of Southern Medical University were divided into pulmonary embolism group and non pulmonary embolism group. 1. Collect relevant data, including gender, age, primary disease, CTPA imaging and reports, BNP, troponin, electrocardiogram, cardiac ultrasound, PT, APTT, TT, fibrinogen, D-dimer, etc., and analyze demographic data, pulmonary embolism risk grading, APTT/fibrinogen ratio, and determine their cut-off values through statistical analysis of the two groups. 2. Follow up on the APTT/fibrinogen ratio after anticoagulation treatment and bleeding in the pulmonary embolism group.