View clinical trials related to Aortic Dissection.
Filter by:The objective of this registry is to collect information on the performance and clinical benefits of the AMDS (Ascyrus Medical Dissection Stent) to treat patients with acute "DeBakey type I dissections" and with or without so called "preoperative clinically relevant malperfusion" and/or "intramural hematomas". In a healthy aorta (the vessel that supplies blood to most of the body) the blood flows freely through the main lumen (a space inside the vessel where blood flows). The participants involved in this study have a tear that has separated the inner layer of the aorta wall and created a secondary channel (false lumen) in addition to the main channel (true lumen), and huts, the blood flows through both channels. AMDS is a stent (a metal tube helping to keep the vessel open) that is placed in the descending thoracic aorta. AMDS is a medical device commercially available in the countries in which the study is being conducted and it is used as standard of care according to its indication.
HEADSTART is a prospective, open-label, non-blinded, multicenter, randomized controlled trial that compares a composite of mortality and re-intervention in patients undergoing hemiarch and extended arch repair for acute DeBakey type 1 aortic dissection. Eligible patients will be randomized to one or the other surgical strategy and clinical and imaging outcome data will be collected over a 3 year follow up period.
Spontaneous coronary artery dissection (SCAD) is a rare cause of coronary ischemia and infarction where a tear in blood vessel wall either restricts the flow of blood or the blood becomes trapped in between the layers of the vessel causing the vessel to impinge on the lumen and causing an obstruction or restriction of blood flow. The ultimate goal of this proposal is to further understand the risk factors leading to SCAD with a focus on familial and genetic causes of SCAD.
This study aims to evaluate the feasibility, effectiveness, and safety of in-situ laser-assisted fenestration on the left subclavian artery during the procedure of thoracic artery endovascular repair
Thoracic endovascular aortic repair (TEVAR) for disease involving the aortic arch remains complex and challenging due the angulation and tortuosity of the arch and its peculiar biomechanical environment. Currently, TEVAR planning is based on the analysis of anatomical features by means of static imaging protocols. Such an approach, however, disregards the impact of pulsatile forces that are transmitted as migration forces on the terminal fixation sites of the endograft, and may jeopardize the long-term clinical success of the procedure. Hence,the investigators aim to assess the migration forces acting on different proximal landing zones of the aortic arch by computational modeling, and develop in silico patient-specific simulations that can provide a quantitative evaluation of the stent-graft performance. Study's results are expected to provide valuable insights for proper proximal landing zone and stent-graft selection during TEVAR planning, and ultimately improve postoperative outcome.
The purpose of this study is to validate the impact of ALDH2 Glu504Lys polymorphism on aortic dissection.
The aim of the study is to evaluate results of patients treated with the STABILISE technique for acute/subacute aortic dissection. Results and postoperative events are reported in accordance with the current reporting standards for endovascular aortic repair prepared and revised by the Ad Hoc Committee for Standardized Reporting Practices in Vascular Surgery of The Society for Vascular Surgery/American Association for Vascular Surgery
Aortic dissection (AD) is a serious pathology affecting one person for 300 000 habitants per year. In case of complicated AD on the descending aorta, it is necessary to perform an endovascular surgery in association with medical treatment. An endoprosthesis is implanted on the descending thoracic aorta in order to close the main intimal tear. This closure lead to an increase in the thoracic true lumen diameter, a decrease in the thoracic false lumen diameter, a better perfusion of the aortic branches. Furthermore, even in case of open surgical treatment of the ascending aorta it can be necessary to perform an endovascular treatment on the descending aorta, either to prevent and treat aneurysmal evolution or to treat patent malperfusion syndrome. CT and Magnetic Resonance angiography, by the realization of an aortic morphologic evaluation, are the two key imaging exams in the DA. Nevertheless, CT can't provide aortic dynamic evaluation, contrary to MRI. This exam, thanks to the phase-contrast sequence can measure velocity and flow data in vessels, including aorta but also true and false lumen in the AD. Thus, by verifying the perfusion of the aortic true lumen and the aortic branches it is possible to perform an early evaluation of the endovascular treatment of the DA. Actually, only one study has realized an aortic dynamic evaluation on the AD, unfortunately this study was limited to non-operated patients. In order to assess the place of MRI in the AD, the ingestigation propose to determine if phase-contrast MRI is able to evaluate the impact of the endovascular treatment on the hemodynamic state of the aorta and its branches.
The purpose of this study is to determine whether Sodium Fluoride imaging (using Positron Emission Tomography-Computed Tomography - PET-CT) is able to predict disease progression in acute aortic syndrome.
1. Evaluate the feasibility for the on-table evaluation of the renal perfusion by using Syngo Dyna Parenchymal Blood Volume(PBV) Body; 2. Explore the clinical benefits of this application during procedure to help the physician to determine the procedure endpoint.