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105 active trials for Pulmonary Embolism

Pilot Study: Comparison of Patients' Knowledge of Direct Oral Anticoagulants Between 2 Cardiology Departments Offering or Not a Pharmaceutical Interview

Direct oral anticoagulants (Rivaroxaban, Apixaban and Dabigatran) are an alternative to anti-vitamin K drugs and low molecular weight heparins in many cardiovascular diseases. This new class of anticoagulants represents a particular and very promising advance: they are administered orally, their mechanism of action is rapid and direct on coagulation and their predictable pharmacological action allows for administration at fixed doses. In contrast to anti-vitamin K, there is no need for routine biological monitoring. However, their therapeutic range is narrow and there is no routine biological monitoring. Rigorous compliance is therefore necessary. In addition, there are no official validated recommendations either for the measurement of anticoagulant activity in certain emergency situations, or for the management of severe bleeding (except recently for Pradaxa®). Their correct use requires the training and involvement of health professionals as well as information and support for patients. Pharmaceutical interviews are one of the main ways in which pharmacists can ensure this security through personalized and optimal patient care. The purpose of these interviews is to: Reinforce the pharmacist's advisory, educational and preventive roles with patients; To enhance the pharmacist's expertise in the area of medication; To evaluate the patient's knowledge of his or her treatment; To assess the patient's knowledge of his or her treatment; To seek the patient's therapeutic adherence and help him or her to take ownership of his or her treatment; To evaluate, in the long term, the patient's appropriation of his or her treatment. In this way, they enable involvement with patients while providing a link between healthcare professionals, which is essential for optimal patient care. In recent years, numerous studies have been conducted on pharmaceutical interviews in the United Kingdom and the Netherlands. On the other hand, few studies have been conducted in France to evaluate the clinical impact of pharmaceutical interviewing in medical services. The aim of this study is to compare patients' knowledge of direct oral anticoagulants between 2 cardiology departments offering or not a pharmaceutical interview.

Start: January 2021
Adrenomedullin in Context With Pulmonary Embolism

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).

Start: August 2020
Non-Invasive Measurement of Cardiac Output and Stroke Volume in PE

Pulmonary embolism impacts over 1 in 1000 adults annually and is the third leading cause of cardiovascular death after heart attack and stroke. The consequence of each PE is widely variable. Physiologically, the morbidity and mortality of PE is ultimately caused by failure of the right ventricle. The acute rise in pulmonary vascular resistance caused by a PE can overwhelm the right ventricle, resulting in a drop in cardiac output and death from failure of the heart to provide vital perfusion. Despite the importance of stroke volume and cardiac output in the current understanding of PE mortality, they are notably absent from risk stratification scores because they historically could only be measured invasively. Novel non-invasive methods of estimating stroke volume and associated cardiac output have the potential to revolutionize PE risk stratification and care. Non-invasive blood pressure (NIBP) monitors can even measure stroke volume beat to beat, allowing for continuous evaluation of cardiac function. NIBP systems are typically composed of a finger cuff with an inflatable bladder, pressure sensors, and light sensors. An arterial pulse contour is formed using the volume clamp method of blood pressure measurement combined with calibration and brachial pressure reconstruction algorithms. The stroke volume with each heart beat can be estimated as the area under the systolic portion of the blood pressure curve divided by the afterload. NIBP monitors may improve clinical care of PE because they allow for assessment of dynamic cardiac changes in real time. Detection of worsening stroke volume in acute PE could inform providers of impending cardiac collapse, and improvement of stroke volume may function as a positive prognostic factor or marker of therapeutic success. Use of NIBP monitors during acute PE to identify clinically significant changes in cardiac function may advance both PE prognostication and management. Our clinical study proposes to monitor hemodynamic parameters including stroke volume in patients with acute pulmonary embolism using non-invasive blood pressure monitors. The relationship between hemodynamic parameters and PE outcomes will be assessed, as well as the changes in hemodynamic parameters with PE intervention. To our knowledge, interval monitoring of stroke volume during acute PE with NIBP monitors has never been reported before.

Start: May 2021