View clinical trials related to Aortic Aneurysm.
Filter by:The aim of this prospective, explorative study of noninvasive neuromonitoring was to search potential and practical methods associated with neurological outcome in the perioperative and immediate postoperative setting of surgery of the thoracic aorta. These methods include abbreviated EEG monitoring, near-infrared spectroscopy, transcranial Doppler ultrasound and biochemical markers associated with neuronal damage.
Screening for an abdominal aortic aneurysm, monitoring its growth and evaluation of its risk of rupture are based on the measure of its maximum diameter. The abdominal aortic aneurysm's treatment to prevent its rupture is recommended from a threshold of 50-55 mm in men and of 45-50 mm in women. The importance of this measure for patient management justify a specific and homogeneous protocol of measure. However, the diversity of methods of measuring the maximum diameter with scanner and ultrasound was shown. The impact of various angio-CT based measures of maximum AAA diameter, and the impact of reproducibility limits on the decision to operate have never been investigated.
The aim of the study is to assess if venous distension in patients with aneurysmatic arteriopathy is higher compared to patients with peripheral arterial occlusive disease (PAOD) and in controls.
Mortality of thoracic aortic aneurysm and dissection (TAAD) remains high because of the huge blood lost from the aorta. Questions about the potentially genetic effects on sporadic TAAD are raised by researchers to explore the possible mechanisms leading to sporadic TAAD and to establish new clinical approaches to prevent TAAD-caused adverse clinical outcomes. This study is intended to collect the gene information in sporadic TAAD patients and to explore the relationship between genetic variation and the incidence of sporadic TAAD for further study.
Basic animal research has demonstrated that exercise training can protect the myocardium from ischemia-reperfusion injury through several biological mechanisms . This effect of exercise training may be beneficial in the perioperative period when cardiac complications may arise. However, exercise induced cardioprotection is lost completely within 18 days of stopping the training program. This finding from animal research will be used to test the hypothesis that 3 days of consecutive exercise with the last bout conducted within the last 24/48 hours prior to surgery, will have a cardioprotective effect . Specifically, exercise has been shown to protect cardiac myocytes against reperfusion induced oxidative stress and mitochondria against reperfusion induced damage. This exercise mediated cardioprotection is observed in short moderate duration ischemia (i.e. 5-20 min) and moderate to severe (i.e.20-60 min) ischemic insults. The effects of exercise induced cardioprotection have only been investigated at cell level and it has not been shown whether this will translate into a reduction in postsurgical reperfusion injury and associated complications. To study this potential cardioprotective effect the investigators will aim to recruit patients who have a high risk of receiving reperfusion injury during surgery. Specifically, the investigators will recruit abdominal aortic aneurysm patients where the risk of heart complications is high. There is also currently no evidence in the published literature with regard to the effect of preoperative supervised exercise.
Summary 1. Purpose and Objective: The purpose of this study is to test the feasibility of rapid acquisition of point of care 3D ultrasound in obtaining abdominal and/or pelvic images. The study will use a newly developed acquisition method and post-processing technique to create three dimensional image models of the abdomen and/or pelvis. 2. Study activities and population group. The study population will be a convenience sample of patients of any age presenting to the Emergency Department with complaints necessitating a clinical abdominal and/or pelvic imaging. The study intervention includes acquisition of research ultrasound images, which will not be used for clinical care, and comparison of these images with clinically obtained images. Other clinical data such as surgical and pathology reports will also be reviewed. 3.Data analysis and risk/safety issues. This is a pilot study intended to determine feasibility and to refine image reconstruction algorithms. Research images will be compared to clinical images. Comparison of research images with final diagnosis will also occur. The research intervention, an ultrasound exam, has no known safety risks. The only risk to subjects is loss of confidentiality. This study is observational, not interventional, because the experimental ultrasound will be performed in all subjects and will not be used in the clinical care of patients (consequently, will not have the opportunity to affect clinical outcomes). Experimental images will be reviewed after completion of clinical care and will not be provided to the clinicians caring for the subjects. The investigators are not measuring the effect of the ultrasound examination on the subjects' outcomes.
The present clinical trial is performed in the field of vascular surgery. The aim of the study is the economical and clinical comparison of two different access ways to the femoral artery with intention of endovascular repair of aortic aneurysm. The usual access is a surgical cutdown to the femoral artery and is compared to a percutaneous access which is closed via a suture mediated device (Perclose ProGlide, Abbott).
During their biological life, proteins undergo molecular aging due to many non-enzymatic post-translational modifications that alter their structural and functional properties. These reactions concern all proteins but especially tissue proteins (whose half-life in the organism can be several decades) and lead to the formation of complex products called PTMDPs ("post-translational modification derived products"). Molecular aging is responsible for the alteration of protein properties which may cause changes in mechanical properties of tissues during aging and pathologies. However, the involvement of these processes in vivo remains unclear, particularly in the aneurysmal pathology. So, the aim of this study is to determine whether the molecular aging of matrix proteins within the vessel wall may participate in the development of aortic aneurysm.
The study will assess the effectiveness, safety and clinical outcomes of the Thoraflex™ Hybrid Device in the treatment of aortic disease affecting the aortic arch and the descending thoracic aorta, with or without involvement of ascending aorta. The study will also assess safety and early clinical outcomes in patients who receive an extension procedure within 1 year of Thoraflex™ Hybrid Device implantation. Lastly the study will assess the safety and clinical outcomes of patients who receive a Thoraflex™ Hybrid Device for treatment of a ruptured aorta. Patients will be followed for 3 years. The Primary Endpoint will be freedom from defined Major Adverse Events (MAE) occurring ≤ 1 year post-procedure.
The LUCY Study is a prospective, consecutively enrolling, non-randomized multi center post-market study to evaluate the low profile (14F) Ovation® Abdominal Stent Graft Platform when used in the endovascular treatment of female patients.