View clinical trials related to Aortic Aneurysm.
Filter by:Multiple organ dysfunction syndrome is a major cause of morbidity and mortality after abdominal aortic aneurysm (AAA) surgery. It is postulated that aortic cross-clamping during open AAA repair may cause ischemia-reperfusion (I/R) leading to the systemic releases of reactive oxygen species (ROS) and inflammatory cytokines which damage distant organs, including heart, kidney, and lung. Ischemic preconditioning, first described in cardiac surgery, is a mechanism whereby tissues exposed to a brief period of nonlethal I/R develop resistance to subsequent ischemic insult. Remote ischemic preconditioning (RIPC), is a phenomenon whereby brief periods of ischemia followed by reperfusion in one organ (usually skeletal muscle) provide systemic protection from prolonged ischemia. The mechanisms through which RIPC confer organ protection remains unclear. The hypothesis is that limb RIPC would reduce systemic inflammatory mediators produced by ischemia-reperfusion and thereby protect the remote organs. A single-center, prospective, randomized, parallel-group controlled trial is conducted on patients undergoing elective open infrarenal AAA repair. Written informed consent is obtained from each participant. The study protocol was reviewed and approved by the Research Ethics Committee of Rouen, France. Patients are divided in two groups : the sham-operated control group underwent surgery without RIPC and the RIPC group : Two cycles of intermittent crossclamping of the common iliac artery (right or left) with 10 minutes ischemia followed by 10 minutes reperfusion served as the RIPC stimulus, before prolonged ischemia. Blood samples are collected for analysis at the following time points: before surgery (baseline), 1, 3 and 24 h after cross-clamp release (reperfusion). The systemic inflammatory response is measured using the serum concentrations of TNF-alpha, and IL 1, 4, 6, 10. Cardiac, renal and pulmonary functions are evaluated with usual biological markers and clinical monitoring until 28 days after surgery. Aortic surgery is a perfect clinical model of ischemia-reperfusion which makes it possible to study the impact of RIPC in humans. This biological approach would help to better understand the mechanisms underlying this technique.
This extended investigation is to provide continued physician access to the device and collect confirmatory safety and effectiveness data.
The ACE trial is a multicentre, randomized controlled trial comparing axillary vs. innominate artery cannulation for established antegrade cerebral perfusion in patients having aortic surgery (thoracic and aortic arch) requiring deep hypothermic circulatory arrest using a non-inferiority trial design.
The primary aim of this study is to establish the practicality of using two novel imaging modalities for the assessment of biomechanical properties of the aorta.
Aneurysms of the thoracic ascending aorta are a serious pathology which may threatens life by rupture or dissection. Their incidence is estimated at 10.4 per 100,000 people. At present, the only parameter for assessing the risk of complication is the maximum diameter of the aneurysm. The only way to avoid a complication is a surgical replacement of the aneurysmal aorta by a prosthetic tube. This procedure is performed by sternotomy and with extracorporeal circulation and its death rate ranges between 3% and 5%. Surgical repair is indicated when the diameter of the aneurysm exceeds 5.5 cm for degenerative atheromatous aneurysms or 5 cm in a patient with genetic disorder of connective tissue (Marfan disease or Ehlers-Danlos syndrome). However, there are aneurysms with diameter greater than the surgical threshold which remain stable. Conversely, complications have been described for aneurysms less than 4.5 cm in diameter. The criterion of diameter appears therefore as inadequate to assess the risk of complication of an aneurysm of the ascending aorta.Multiple methods have been described in the literature. One of them relies on in vitro mechanical testing on healthy or aneurysmal tissue. Another method is the vivo analysis from imaging (CT, MRI or ultrasound). So far, no algorithm is robust enough for predicting the risk of complication better than the universally used criterion of diameter. The pathophysiology of these aneurysms has also been explored from histological studies. The investigators know that the microstructure of the aortic wall of an aneurysm is deteriorated with a degradation of elastin fibers and collagen that determine to a large extent its biomechanical behavior. Histological analysis appears inseparable from biomechanical analysis.
The Zenith® Low Profile AAA Endovascular Graft Clinical Study is a clinical trial to study the safety and effectiveness of the Zenith® Low Profile AAA Endovascular Graft used in conjunction with the Zenith® Spiral-Z® AAA Iliac Leg Graft to treat abdominal aortic, aortoiliac, and iliac aneurysms.
This study will assess the initial feasibility of the GORE® EXCLUDER® Thoracoabdominal Branch Endoprosthesis (TAMBE Device) in the treatment of Aortic Aneurysms Involving the Visceral Branch Vessels.
The present study will investigate the effect of artificially stiffening the aorta by means of an aortic stent on central aortic haemodynamics (CAH). This study will determine whether aortic stenting inadvertently adversely impacts on CAH, thereby providing the rational for subsequent therapeutic intervention to reduce the associated cardiovascular risk.
The purpose of the study is to assess the safety and effectiveness of the GORE® EXCLUDER® Conformable AAA Endoprosthesis to treat an infrarenal aneurysm located in the abdominal aorta. Performance of the GORE® EXCLUDER® Conformable AAA Endoprosthesis will be judged by separate performance goals.
The study is a non-randomized, multi-center safety and feasibility trial of Aneufix ACP-T5 to treat patients with Isolated type II endoleak in the presence of a non-shrinking AAA sac following an EVAR procedure.