View clinical trials related to Pulmonary Embolism.
Filter by:The purpose of this study is to evaluate the efficacy and safety of SaExten vena cava filter (VCF) system (ShenZhen KYD BioTech Co., Ltd., China) in prevention of pulmonary embolism (PE). This is a prospective, multicenter, randomized controlled, positive-controlled clinical trial, which will enroll 204 participants in total. Participants will undergo interventions with SaExten VCF System or Denali filter (C. R. BARD, Inc., USA).
Research objective. - To study the associations between combinations of single nucleotide polymorphisms and behavioural risk factors with non-communicable diseases and adverse outcomes in women with premature ovarian failure. Research objectives: - To study the associations between combinations of single-nucleotide polymorphisms and behavioural risk factors with heart rate disorders and adverse outcomes in women with premature ovarian failure - Examine the associations between combinations of single nucleotide polymorphisms and behavioural risk factors with stable STIs in women with premature ovarian failure. - Examine the associations between combinations of single nucleotide polymorphisms and behavioural risk factors with thrombomolia in women with premature ovarian failure - Study the associations between combinations of single nucleotide polymorphisms and behavioural risk factors and adverse cardiovascular outcomes in women with premature ovarian failure.
Following acute pulmonary embolism (PE), up to a third of patients develop post-PE syndrome described as having persistent breathlessness (dyspnea), impaired exercise capacity, and a reduced quality of life. The post-PE syndrome includes patients with chronic thromboembolic pulmonary hypertension (CTEPH), patients with chronic thromboembolic disease (CTED) those with an obstruction of the pulmonary arteries without pulmonary hypertension, and patients with post-PE related dyspnea without obstruction or pulmonary hypertension. Although therapies exist for the most severe form of the post-PE syndrome (CTEPH) - for most patients there are no available disease specific therapies that reduce symptoms. Despite studies showing increased breathlessness and abnormal exercise responses in patients with CTED, a detailed examination of what causes breathlessness in post-PE syndrome has never been undertaken. It is suspected that reduced blood flow to the lungs contributes to the feelings of breathlessness, particularly during exercise. This study will use inhaled nitric oxide, a medication that increases blood flow to the lungs. Inhaled nitric oxide is used primarily in hospitalized patients in the intensive care unit with respiratory failure, its use in people with post-PE syndrome is experimental. The investigators believe use of this medication may help to relieve symptoms of breathlessness. In order to test this medication, in volunteers with post-PE syndrome, the following will be measured: 1) breathlessness, 2) the signal to breathe sent from the brain to the lungs, 3) the activity of the muscles involved with breathing and 4) the amount of different gasses in the blood during exercise. The investigators will compare breathlessness and exercise tolerance during exercise while receiving: 1) a placebo (normal medical grade air) and 2) inhaled nitric oxide (a medication that improves blood flow to the lungs). By comparing symptoms during these two conditions, it is hoped to obtain a better understanding of what causes breathlessness in people with post-PE syndrome. This clinical research study will recruit approximately 20 clinically stable participants with CTED or post-PE related breathlessness.
Pulmonary embolism (PE) is a common cardiovascular condition with an estimated incidence of 0.60 to 1.12 per 1000 inhabitants in the United States of America, and the diagnosis is challenging as patients with PE present with a wide array of symptoms. Computed tomography pulmonary angriography (CTPA) and lung ventilation-perfusion scintigraphy (VQ) are considered the gold-standards in PE-diagnostics but may not always be feasible. CTPA is contraindicated by contrast allergy or renal failure and both modalities require involvement of multiple staff-members and transport of the patient. Lung scintigraphy cannot be performed in an emergency situation, with unstable patients and patients unable to comply to the examination. Ultrasound represent a possible tool in confirming or dismissing clinical PE suspicion. Ultrasound is non-invasive and can be performed bedside by the clinician, an approach known as point-of-care ultrasound (PoCUS), reducing both time, radiation-exposure and costs. The aim of this study is to investigate whether integrating cardiac, lung and deep venous ultrasound in the clinical evaluation of suspected PE reduces the need for referral to CTPA or lung scintigraphy, during emergency department work up, while maintaining safety standards.
Investigators 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.
The 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).
The overall goal of the VVIRTUOSO study is to determine the incidence of VTE including symptomatic DVT and PE after hospital discharge in patients with COVID-19 by implementing a pragmatic patient-centred prospective virtual VTE monitoring program in Canada and the United States.
To evaluate treatment outcomes of patients diagnosed with high-risk (massive) pulmonary embolism
Monocentric study for the evaluation of a whole body CZT scintigraphy system.
This study is an extension of a planned quality improvement project that aims to promote standard of care by increasing the use of evidence-based clinical decision rules amongst emergency medicine providers in the University of Utah Emergency Department. Patient-specific information from the EHR will be used to recommend the use of relevant clinical decision rules to emergency medicine providers at the point-of-care. These recommendations will be in the form of non-interruptive alerts with one-click access to the suggested decision rules through the MDCalc Connect EHR add-on application. Specific aims of the study are to determine if 1) patient-specific non-interruptive alerts increase the use of clinical decision rules amongst emergency medicine providers and 2) an increase in the use of clinical decision rules affects provider ordering habits.