Xarelto for Real Life Anticoagulation in Pulmonary Embolism (PE) in China
Pulmonary EmbolismEINSTEIN PE study demonstrated that rivaroxaban is at least as effective as the current standard therapy with 51% relative risk reduction of major bleeding (1.1% vs. 2.2%, HR 0.49, 95% CI, 0.31-0.79), in the treatment and secondary prevention of PE. However these patients were required to meet strict eligibility criteria. Little is known about PE treatment in China in routine clinical practice and in a real world study patients at higher or lower risk for adverse events can possibly recruited. Bayer conducts this study to yield post-authorization safety information in rivaroxaban under real-life conditions in China.
Use of Bedside Ultrasound in Emergency Department Patients With Concern for Pulmonary Embolism to...
Pulmonary EmbolismDeep Vein Thrombosis Leg1 moreAt most institutions, the average patient with clinical concern for PE(pulmonary embolism) will have a CT angiogram(CTA) with contrast of the lungs performed to evaluate for a clot. However, CTA has risks including contrast- induced allergic reactions and nephropathy, as well as radiation which has been linked to development of cancer later in life. There is literature that has looked at using lower extremity doppler ultrasound first to evaluate for a DVT (deep venous thrombosis) in patients where there is concern for a PE. There is also literature showing that emergency medicine physicians can perform adequate lower extremity compression ultrasounds (LCUS), at the bedside with results similar to that of the ultrasound tech. The goal of this project is to fuse both principles by having emergency medicine physicians perform LCUS at the bedside, to help reduce CTA utilization in the evaluation of PE.
Time Trend Analysis of PE Diagnosis With SPECT V/Q: a Single Institution Observational Study
Pulmonary EmbolismFollowing the implementation of SPECT V/Q imaging for PE diagnosis, the investigators previously conducted an observational study over the period 2011-2013 that showed the safety of a diagnostic management based on SPECT V/Q to rule out PE. However, PE prevalence was high (28%), which may seem a bit high as compared with other recent studies. The hypothesis was that the use of SPECT V/Q may be responsible for an overdiagnosis of PE, especially at the implementation phase of the test. The aim of this study was to perform a time trend analysis of the evolution over the years of PE diagnosis with SPECT V/Q.
Anti-Xa Assay Correlation to the Efficacy and Safety of Enoxaparin in the Treatment of Pulmonary...
Anti-Xa Assay in Pulmonary EmbolismThe aim of the present study is to monitor anticoagulant therapy by anti-Xa assay and correlate its level to the efficacy and safety of enoxaparin in the treatment of pulmonary embolism.
Latest Imaging SPECT System Evaluation Phase 1
Rheumatic DiseaseNeoplasms7 moreMonocentric study for the evaluation of a whole body CZT scintigraphy system.
Replication of the RECORD1 Anticoagulant Trial in Healthcare Claims Data
Deep Vein ThrombosisPulmonary EmbolusInvestigators are building an empirical evidence base for real world data through large-scale replication of randomized controlled trials. The investigators' goal is to understand for what types of clinical questions real world data analyses can be conducted with confidence and how to implement such studies.
Adrenomedullin in Context With Pulmonary Embolism
Pulmonary EmbolismThe pulmonary embolism (PE) causes a blockade of the pulmonary arteries typical due to a thrombus which is formed in the lower region of the body or pretty rare to other materials (tumor, air, fat). The working group plans to evaluate the pathology of the thromboembolism in the case of a partial, subtotal or even total pulmonary embolism. The acute PE is still often in the adult population and in many accompanied by death. Etiological the problem occurs through an acute right ventricular failure and leads into severe pulmonal perfusion disorder with shock and hypoxemia. The right diagnose is pretty hard in the clinical day because all symptoms are common and unspecific. To provide the best treatment in short time it is needed to sum up all the symptoms and evaluate the risk of an acute pulmonary embolism and it's morbidity. The easiest and fastest way treating a PE is to apply a systemic intravenous thrombolysis but bleeding complications are the most common and most frequently side effects. The decision-making process in patients without shock is pretty hard because of having no clear diagnose. Lab parameters and imaging (CT angiography) is important for the best decision in critical ill PE patients but time is sometimes missing. A possible new biomarker in identifying a PE is adrenomedullin. Elevated adenomedullin levels in septic patients with left ventricular heart failure, severe dyspnoea and intubated patients are well known, but in the case of PE it wasn't analysed yet. Human adrenomedullin is a protein with 52 amino acid which is produced in the lung and first extracted in the adrenal gland. The sequence homology is pretty similar to the Calcitonin-Gene-Related-Peptide (CGRP)-protein superfamily (vasodilatation). Its precursor is named pro-adrenomedullin peptide and it shows a significant weaker vasodilatation activity compaired to adrenomedullin. Adrenomedullin causes severe hypotonia in scientific studies where it was applied as an intravenous bolus or infusion. This vasodilatation effect concern to the systemic and as well in the pulmonary circulation. Its vasodilatation mechanism is not clarified yet. The trial is defined as an prospective study, where the investigators would like to measure/analyse the adrenomeulline level in PE patients in the intermediate high and high risk population. The diagnose and treatment of the patients is fixed to the European Society of Cardiology (ESC) recommendations of the cardiology society of 2019 Guidelines on Acute Pulmonary Embolism (Diagnosis and Management of Pulmonary Embolism).
CHIPs-VTE Study in Hospitalized Patients With Lung Cancer
Venous Thromboembolic DiseasePulmonary Embolism1 moreVenous thromboembolism (VTE) is a common complication of malignancies, in particular to lung cancer. Patients with lung cancer in surgical and medical departments are at high risk of VTE development. Prophylaxis is one major way to to prevent it. Currently, VTE prophylaxis is mainly based on VTE-risk assessment. However, all patients hospitalized for cancer are at intermediate or high risk of VTE but their bleeding risk vary. To improve effect of VTE prophylaxis and reduce bleeding events in patients with lung cancer, we will conduct an open-label parallel randomized clinical tria to assess the effect of bleeding risk based prophylaxis strategy among lung cancer patients. We hypothesize that VTE prophylaxis based on bleeding risk assessment with a short post-discharge treatment course is superior to VTE propohylaxis based on VTE risk assessment among hospitalized patients with lung cancer A sample of 3200 eligible patients will be randomized into experimental or control group with an allocation rate of 1:1. Stratified by medical/surgical units, block randomization with a varying block size of 4 or 6 will be adopted to randomize patients into experimental or control group. In experimental group, patients will undergo bleeding risk assessment and receive prophylaxis according to bleeding risk during hospitalization, and they will also receive an extended pharmacological prophylaxis of 5mg Rivaroxaban once daily for up to 15 consecutive days after discharge. In control group, patients will receive routine VTE prophylaxis, VTE risk assessment and prophylaxis if indicated during hospitalization according to current policies for hospitals in China but no further treatment prophylaxis after discharge. Patients in both groups will be followed up for 30 days. The primary outcome is symptomatic and asymptomatic objectively proven VTE (deep vein thrombosis (DVT) and/or pulmonary embolism (PE)) within 30 days after initiation of randomization. Ultrasound and CTPA will be performed to detect DVT and PE, respectively. Clinically relevant bleeding (non-major clinically relevant and major bleeding, HIT) and death are secondary outcomes.
Prophylaxis of Thromboembolic Complications Trial: Thromboprophylaxis Needed in Below Knee Plaster...
Deep Vein ThrombosisPulmonary EmbolismObjective: The purpose of this study is to determine the need for thromboprophylaxis in patients with a fracture of the lower extremity being treated conservatively in a below-knee plaster cast and to assess if both of the two tested prophylactic treatments are effective for this indication. Hypothesis: Nadroparine and Fondaparinux are both effective in preventing a thromboembolic event in patients with a nonsurgical fracture of a lower extremity immobilised in a below-knee plaster cast.
D-dimer Levels During and After Anticoagulation in Patients With a Previous Venous Thromboembolism:...
Deep Vein ThrombosisPulmonary EmbolismThe results of the Prolong study, currently submitted for publication, show that patients with a first unprovoked venous thromboembolic event who have altered D-dimer levels, measured one month after anticoagulation with vitamin K antagonists is stopped, have a high rate of recurrences (about 14%) and a prolongation of anticoagulation is effective in reducing significantly this rate. Those patients with normal D-dimer (about 60% of all patients examined) have a low rate of recurrences (about 5%) and likely a prolongation of anticoagulation in all these patients cannot be recommended. In line with these results, the Prolong-Two study aims at assessing the predictive role for recurrence of D-dimer levels measured: a) during anticoagulation, b) one month after its withdrawal and c) periodically during follow up. Patients with a first unprovoked venous thromboembolism (including proximal deep vein thrombosis of a leg and/or pulmonary embolism) which are treated with vitamin K antagonists for not less than 6 months are considered for the study. D-dimer assay is performed during anticoagulation and patients with altered results continue the anticoagulation for 6 more months. Those with normal D-dimer stop the anticoagulant treatment and are again examined one month later. Anticoagulation is resumed for 6 more months in those patients with abnormal D-dimer results but is permanently stopped in those with a normal assay. The latter patients are examined and D-dimer assay performed again every two months to evaluate the natural history of the assay after anticoagulation is stopped and the possible predictive value for recurrence of a change of the assay during follow-up from normal to abnormal results.