View clinical trials related to Aneurysm.
Filter by:The Diagnosis of a thoracic Aortic Aneruysms usually made when imaging an abdominal aortic aneurysm which has reached threshold or as an incidental finding during a chest scan by computed tomography (CT) or magnetic resonance imaging (MRI). However, these imaging modalities are expensive, involve radiation exposure and can cause anaphylaxis and other allergic reaction from the contract agents used. In addition CT scans are contraindicated for those who have: allergic reactions to the contrast, radioactive iodine treatment for thyroid disease, metformin use, and chronic or acutely worsening renal disease. Ultrasound is a non-invasive imaging modality that is cheaper than the methods currently used for TAA detection and surveillance. Echocardiography is limited in assessing the TAA as it is not sensitive to image beyond the proximal ascending aorta which is why it is currently not used for screening or surveillance. A pilot study found that ultrasound has the potential to be used as a diagnostic modality for thoracic aortic aneurysms and may have a role in surveillance in patients for whom CT scanning is contraindicated. They found that the sensitivity and specificity of detecting TAA was 100% and 70% for a threshold of 35 mm, and 84% and 90% for a threshold of 40 mm. However, further validation of this methodology is required for it to be considered as a method of diagnosis and surveillance for this patient group. This study was only carried out by one experienced sonographer so it important to repeat this study to see if other sonographers are able to obtain the necessary views. The main purpose of this study is to validate the protocol used by pilot study to assess whether thoracic aortic aneurysms can be detected and measured accurately using ultrasound. There are two main objectives of this study: 1. Can ultrasound be used to detect thoracic aortic aneurysms? 2. Can ultrasound be used to accurately measure thoracic aortic aneurysms? If the results of this study show that ultrasound has high sensitivity and specificity for detecting thoracic aortic aneurysms, it could lead to a thoracic aorta screening programme.
This multicenter, single-arm retrospective registry (chart review) is being conducted to confirm the clinical performance and safety of GORE-TEX® Vascular Grafts and GORE® PROPATEN® Vascular Graft throughout the device functional lifetime for each indication area.
Lung surgery, open aortic surgery, TEVAR, and EVAR are major operations that carry a higher incidence of perioperative mortality and complications compare to other surgery. The study of the incidence of mortality and complications will help the hospital to benchmark with the others. Also the study of the risk factors of mortality and major complications will help to improve the patients' outcomes.
The purpose of the Pipeline™ Flex Embolization Device with Shield Technology™ Post Approval Study (PAS) ("Pipeline™ Shield PAS") is to collect on-label use data in patients undergoing treatment for intracranial aneurysms (IA) using the Pipeline™ Flex Embolization Device with Shield Technology™ ("Pipeline™ Shield Device") in a real-world post approval setting within the United States.
The purpose of this study is to evaluate Dual Antiplatelet Therapy adherence in patients undergoing stent-based endovascular treatment for unruptured cervical and intradural, intracranial aneurysms. Patients will be randomized on a 1:1 basis to either a medication reminder app group or a control group, with patients in both groups receiving the standard of care. The app in question, Endovascular Neurosurgery, is available on the app store. The app does not collect user data and has not been officially deemed HIPAA compliant. The only data inputted into the app are the patient's procedure date and the antiplatelet medications the patient has been prescribed. The app does not possess sensitive patient data. Patients will input the time notifications will be sent and the app will be available in both Spanish and English. The investigators will be assessing medication adherence via the Adherence Barriers Questionnaire.
Prospective, randomized, multi-center study designed to evaluate the outcomes of commercially available contemporary EVAR in a real-world population. Patients will be randomized into two device cohorts and compared across the primary endpoints. Patients will be followed procedurally to discharge, at 1, 6, 12 months and annually through to 5 years (total follow-up commitment).
Evaluation of the safety and efficacy of a multi-branched thoracoabdominal stent graft system for thoracoabdominal aortic aneurysm.
The ITACA study is a prospective, observational no profit registry enrolling patients with Acute Coronary Syndrome and angiographic evidence of coronary aneurysms and/or ectasia.
To conduct a retrospective multicenter cohort study to define benchmark values for best achievable outcomes following microsurgical clipping of unruptured intracranial aneurysms (UIA).
The study presents an alternative method of tracheal dilatation in pediatric patients with acquired tracheal stenosis. Dilatation is performed by the use of balloon catheter connected with manometer, that is bronchoscopic guided into trachea in the stenotic area, through the wide canal of supraglottic device i-Gel. Every dilatation cession consists of three consequent tracheal balloon dilatations of maximum 3 minutes duration each, followed by 10-15minutes interval of controlled ventilation. The balloon is inflated for 60 seconds to reach predefined pressure, and then deflated. This method is minimal traumatic for tracheal mucosa, and application of several dilatation procedures every 2-3months, in pediatric patients with acquired tracheal stenosis, may lead to a relative reopening of trachea and recession of clinical symptoms.For the right performance of the dilatation procedure, patients receive general anesthesia with cessation of spontaneous ventilation. During procedure, controlled ventilation-oxygenation is impossible, because the i-Gel canal is occupied by bronchoscope and balloon catheter, so patients will remain apneic for a short period of time. For pediatric patients is important to perform proper preoxygenation prior to procedure, and to maintain oxygenation as long as possible during procedure. This is achieved by application of apneic oxygenation, through a small catheter, connected to high flow oxygen. Participants are exposed during first dilation to no oxygenation, while during second and third dilatation to apneic oxygenation. Aim of the study is to investigate primarily whether application of apneic oxygenation, in pediatric patients during tracheal balloon dilatation, maintains regional cerebral oxygen saturation rSO2 in significant higher levels, compared with no application of oxygenation. rSO2 levels are a sensitive index of oxygenation efficacy of the brain, accordingly this refers to a safe procedure. Secondary issues are whether application of apneic oxygenation maintains pulse oximetry SpO2 and artierial oxygen partial pressure PaO2 in higher levels, and what are the effects on arterial carbon dioxide partial pressure PaCO2 and on haemodynamic parameters (heart rate, blood pressure), compared with no application of apneic oxygenation.