View clinical trials related to Pulmonary Thromboembolisms.
Filter by:Pulmonary embolism (PE) presents notable risks of morbidity and mortality, underscoring the need for customized anticoagulant treatment. There is a scarcity of research examining drug-related issues (DRPs) in PE. This research endeavor seeks to assess how addressing DRPs affects the clinical outcomes of PE patients receiving outpatient care, offering valuable insights to bolster patient safety measures. This study will conduct a randomized controlled trial on PE patients in Istanbul, Turkey, from January 15, 2022, to January 15, 2023. The intervention group (IG) will receive clinical pharmacist (CP) recommendations for DRPs, while the control group (CG) will undergo observation only. Evaluations will occur at 90- and 180-days post-discharge, focusing on DRPs, CP interventions, and patient outcomes. Data will be systematically recorded and analyzed, adhering to ethical standards and employing the PCNE v9.1 classification system.
Smart technologies, such as wearable devices, mobile technologies, and artificial intelligence, are being investigated for use in health management. These technologies have the potential to be applied in disease pre-warning, decision-making support, health education, and healthcare maintenance. They are expected to address the challenges in managing thrombosis, improve access to high-quality medical resources in various regions, and enhance the development of a network for thrombosis rescue and treatment prevention. The objective of this study is to evaluate the impact of mobile venous thromboembolism application (mVTEA) based patient-centered management of pulmonary thromboembolism (PTE) on the long-term outcome of PTE patients, in order to enhance clinical practice and establish a foundation of evidence for managing patients with PTE.
Multicenter longitudinal observational ambispective (retrospective cases from 2014 and prospective from 2018 onwards) cohort study. The registry recruits a series of consecutive patients admitted for moderate-high risk or high-risk pulmonary embolism (according to 2019 European Society of Cardiology guidelines) treated invasively. This study aims to describe the acute management of the safety and effectiveness of different percutaneous interventions for acute pulmonary embolism.
The goal of this prospective observational study is to explore the influencing factors of the efficacy and safety of anticoagulant therapy for pulmonary thromboembolism in special populations with older age, renal insufficiency or co-existing malignancy, and establish a predictive model to guide clinical practice. The main questions it aims to answer are: - To analyze the influencing factors of the efficacy and safety of anticoagulant therapy for specific populations with pulmonary thromboembolism (PTE) in the real world (such as the elderly, those with impaired kidney function, and individuals with malignant tumors). - Whether we can use machine-learning models to predict bleeding events and VTE recurrence in special populations following anticoagulant therapy in the real world? Participants will receive diagnostic and therapeutic measures for pulmonary thromboembolism in accordance with clinical guidelines, including anticoagulant therapy. Some patients need to have peripheral blood samples collected at the time of enrollment and 3 months after anticoagulant therapy.
Chronic Obstructive Pulmonary Disease (COPD) is a common respiratory system disease characterized by persistent respiratory symptoms and irreversible airflow restriction, which seriously endangers people's health. Acute exacerbation of chronic obstructive pulmonary disease (AECOPD) refers to individuals who experience continuous deterioration beyond their daily condition and need to change their routine medication. AECOPD is usually caused by viruses and bacteria, and patients require hospitalization, which brings a huge economic burden to society. AECOPD patients often have limited activities. Because long-term chronic hypoxia causes venous blood stasis, siltation causes secondary red blood cell increase, and blood hypercoagulability, AECOPD patients have a high risk of pulmonary embolism (PE). Pulmonary Thrombo Embolism (PTE) refers to a disease caused by blockage of the pulmonary artery or its branches caused by a thrombus from the venous system or right heart. AECOPD patients experience elevated hemoglobin levels and increased blood viscosity due to long-term hypoxia. At the same time, such patients have decreased activity, venous congestion, and are prone to thrombosis. After the thrombus falls off, it can travel up the vein, causing PTE to occur in the right heart PTE is often secondary to low deep vein thrombosis (DVT). About 70% of patients were diagnosed as deep vein thrombosis in lower limb color ultrasound examination. SteinPD conducted a survey on COPD patients and general patients from multiple hospitals. The results showed that by comparing adult COPD patients with non COPD patients, the relative risk of DVT was 1.30, providing evidence for AECOPD being more likely to combine with PTE AECOPD patients with PTE have similarities in their clinical manifestations. It is difficult to distinguish between the two based solely on symptoms, such as cough, increased sputum production, increased shortness of breath, and difficulty breathing. They lack specificity and are difficult to distinguish between the two based solely on symptoms, which can easily lead to missed diagnosis. CT pulmonary angiography (CTPA) is the gold standard for the diagnosis of PTE, but due to the high cost of testing and high equipment prices, its popularity in grassroots hospitals is not high. Therefore, analyzing the risk factors of AECOPD patients complicated with PTE is of great significance for early identification of PTE. At present, although there are reports on the risk factors for concurrent PTE in AECOPD patients, there is no specific predictive model for predicting PTE in AECOPD patients. In clinical practice, risk assessment tools such as the Caprini risk assessment model and the modified Geneva scale are commonly used for VTE, while the Wells score is the PTE diagnostic likelihood score. The evaluation indicators of these tools are mostly clinical symptoms, and laboratory indicators are less involved, It is difficult to comprehensively reflect the patient's condition, so the specificity of AECOPD patients with PTE is not strong. The column chart model established in this study presents a visual prediction model, which is convenient for clinical use and has positive help for the early detection of AECOPD patients with PTE. In addition, medical staff can present the calculation results of the column chart model to patients, making it easier for patients to understand. It helps improve the early identification and treatment of AECOPD combined with PTE patients, thereby improving prognosis.
Chronic thromboembolic pulmonary hypertension [CTEPH] is caused by pulmonary emboli that have enlarged in pulmonary arteries and have become organized into the vessel wall. Many patients with CTEPH are treated with balloon pulmonary angioplasty [BPA] which mechanically opens the narrow pulmonary arteries. It is unclear how much downstream functional pulmonary capillary surface area [FCSA] is recovered during BPA. We plan to measure FCSAIn CTEPH patients, before and after a session of BPA.
In an open-label parallel groups blinded-endpoint randomized clinical trial, the investigators aim to assess the safety and efficacy of conventional catheter-directed thrombolysis (CDT) vs anticoagulation monotherapy on outcomes of patients with acute intermediate-high risk pulmonary embolism. The investigators hypothesize that CDT will have a superior efficacy and safety compared with anticoagulation-only therapy regarding the proportion of patients with a right ventricle to left ventricle (RV/LV) ratio > 0.9 at a 3-month follow-up by an imaging core laboratory, major bleeding, severe thrombocytopenia, or vascular access complication.
This is a Phase 2 safety and tolerability trial that will take place in two parts. Part one of the trial will determine the tolerability of the OsciPulse device on healthy subjects who wear the device for up to three hours. Healthy volunteers will answer questionnaires and may undergo an ultrasound test at the end of their participation in the trial. Part two of the trial will determine the safety and tolerability of the OsciPulse device on subjects admitted to Penn Presbyterian Medical Center. Eligible subjects will be enrolled for 6 hours. In the first 3 hours, subjects will wear the standard of care intermittent pneumatic compression device or the OsciPulse device. In the second 3 hours, the subject's device will be switched and subjects will wear the alternate device not used in the first 3 hours. Subjects will answer questionnaires and may undergo an ultrasound at the end of the first 3 hours and at the end of the second 3 hours (at hour 6).
Deep vein thrombosis (DVT) occurs when a blood clot forms in a deep vein, typically in the lower extremities. Pulmonary embolism (PE) occurs when a DVT clot (or fragment) breaks free and travels through the heart to the pulmonary arteries (having to do with the lungs) and lodges in an artery causing a partial or complete blockage. PE is difficult to diagnose due to the non-specific signs and symptoms patients have with this condition such as a cough, shortness of breath, increased heart rate, blood tinged sputum, low oxygen levels. The standard test to diagnose PE is the Pulmonary Computed Tomography Angiogram (CTA). This can be prohibitive with some patients due to the amount of radiation exposure as well as the complications associated with the need to use intravenous (IV) contrast. In this study the investigators are looking at an alternative method of diagnosing PE's in the Emergency Department where the investigators look at the breathing and blood flow to the lungs thru respiratory gated non-contrast CT (commonly called 4DCT). The investigators hypothesize that respiratory induced blood mass change in the lungs will allow the identification of under-perfused lung regions. Cohort 1: An anticipated15 participants will be enrolled with a diagnosis of PE by CTA. Each will receive SPECT/CT and 4DCT imaging on the same day. Respiratory induced blood mass change images will be issued from the 4DCT and compared to the SPECT/CT images. Cohort 2: An anticipated 5 participants will be enrolled under the same criteria and study procedures as Cohort 1. The participants in Cohort 2 will have the addition of Bilevel Positive Airway Pressure (BiPAP) during the 4DCT imaging. This cohort will be used to compare the effect of airway pressure on 4DCT image. Cohort 3: An anticipated 124 participants will be enrolled. Study procedure will be 4DCT only. Participants must be having or have had a CTA to rule in/out PE. This cohort of the study will be using 4DCT to compare negative CTA to positive CTA findings.
The current data on the incidence of pulmonary hypertension (PH) are very variable, depending on the different studies designs. There are no data on the prognostic of PH in patients with asymptomatic pulmonary thromboembolisms (PT), neither paucisymptomatic PH, in which without a prospective follow-up would be underdiagnosed. We thought that the prognosis of both clinical forms (PT with or without symptoms) would be similar. The objective of this study is know the real incidence of pulmonary hypertension (PH) post symptomatic and asymptomatic pulmonary thromboembolic (PT).