View clinical trials related to Aneurysm.
Filter by:Abdominal Aortic Aneurysm (AAA) is a potentially life threatening condition. If the aneurysm ruptures, the mortality can be as high as 80%. Endovascular aneurysms repair (EVAR) is a minimal invasive procedure and has been widely used on treating AAA. Advanced endovascular techniques are used to treat patients with more complex pathology by using custom-made devices and additional stents. In order to accomplish the technical success on advanced EVAR, with the current imaging equipment and technique for EVAR procedures (i.e. live x-ray fluoroscopy and 2-D digital subtraction angiography (DSA)), multiple angiograms on the target arteries (arteriograms) are required. Subsequently patients are exposed to higher dose of contrast and radiation, compared to conventional EVAR. This study is to assess the feasibility of proper visceral and renal arteries catheterization using a 3D model obtained from pre-procedural computed tomographic angiography (CTA), fused with real-time fluoroscopy, without contrast injection or angiographic run-offs thus minimizing the contrast use and patient radiation exposure while achieving procedure success during Advanced EVAR.
The ETAP study aim to assess the effect of the addition of an ultrasound-guided transversus abdominis plane (TAP) block to a multimodal intravenous analgesia protocol on the postoperative pain control in open surgical repair of abdominal aortic aneurysm. The ETAP study is a single-center open-label randomized controlled trial. Half of patients included will receive the association of TAP block and multimodal intravenous analgesia, and the other half will receive the multimodal intravenous analgesia alone. The multimodal intravenous analgesia includes intravenous paracetamol and intravenous patient-controlled analgesia with morphine.
To prospectively collect data on ECAA we designed the Carotid Aneurysm Registry (CAR). The aim of this study is to collect data on ECAA and its treatment to assess the natural history of ECAA and the success and safety of different treatment strategies.
Aneurysms of the aorta are dilatations of the main artery in the body that distributes blood to organs. Aneurysms expose patients to aortic rupture. The risk of aortic rupture is high for large aneurysms, and low for small aneurysms. Currently, if the diameter of a small aneurysm grows up to a level at risk for rupture, surgery is indicated to prevent rupture. A drug that would stop growth of small aneurysms would obviate aortic surgery, the current treatment to prevent aortic rupture in patients. The ACA4 study aims at testing the possibility to stop growth of small aortic aneurysms in the abdomen with a drug, cyclosporine A. Patients with small aneurysms will receive cyclosporine A orally, or a placebo (fake liquid), every day during a short period of time. Efficacy of the drug will be evaluated by measuring the diameter of the aneurysm during 2 years after treatment cessation. Drug safety analysis will evaluate the impact of the drug on renal function, blood pressure, and other parameters. In case of adverse event during the drug administration phase, dose of the drug or of the placebo will be decreased or administration stopped.
The aim of the cohort study SCAN (Screening Cardiovascular patients for Aortic aNeurysms) is to establish a screening programm for patients with a high risk for an AAA. Aortic aneurysms in these patients should be identified at an early stage and thereby AAA-associated mortality be decreased.
To compare the safety and efficacy of treating small aneurysms with coils specially designed for small aneurysms to historically reported rates of safety and efficacy for the treatment of larger aneurysms.
The RIPAT study is a prospective, randomized, double-blind study organized by the neurovascular group of the Clinical Department of Neurosurgery of Innsbruck Medical University, Innsbruck, Austria. Patients aged 18+ in whom the treatment of an un-ruptured intracranial aneurysm is indicated are eligible for study participation. Prior to aneurysm treatment, with the patient already under general anesthesia, the blood supply to an arm will be restricted for 3x 5minutes by inflating a standard blood pressure cuff. The study hypothesis is that this "remote ischemic preconditioning" maneuver is able to prevent a stroke during the following treatment of the aneurysm.
Background Kawasaki disease (KD) is characterized by fever, bilateral nonexudative conjunctivitis, erythema of the lips and oral mucosa, changes in the extremities, rash, and cervical lymphadenopathy. Incidence of late coronary artery aneurysms or ectasia, which may lead to myocardial infarction (MI), sudden death, or ischemic heart disease, decreased after the introduction of intravenous immunoglobulin therapy. However, significant persistent coronary arterial lesions or aneurysms may still occur in about 1-3 % of the patients. Atorvastatin (Lipitor®), a kind of statin, is a selective competitive inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase. This drug had been safely and widely used for treatment of adult hyperlipidemia, prevention of coronary heart disease and familial hypercholesterolemia in childhood. In addition to the cholesterol-lowering effects, statins exerts diverse cellular, cholesterol-independent effects, including improvement in endothelial function, inhibition of neurohormonal activation, and reduction in levels of proinflammatory cytokines. Based on the above concepts, some patients with infrarenal abdominal aortic aneurysms received statin therapies and then the growth rate of aneurysms slowed down. Therefore, the investigators may hypothesize that Atorvastatin is helpful in the regression of persistent coronary lesions in KD patients due to its effect of anti-inflammation. In NTUH, there are about 20 KD patients with coronary lesions persistent for many years. And the investigators plan to conduct the clinical trial with atorvastatin to evaluate the effects of Atorvastatin on the persistent coronary arterial lesions/aneurysms in children with Kawasaki disease including safety and efficacy. Methods There are around 20 KD patients eligible for this study. After they sign the IRB-approved ICF, they will be enrolled for this study. Briefly, this study is divided into three stages: screening & enrollment stage (I), treatment & follow-up stage (II) for 1 year and final data analysis stage (III). Measurements include basic vital sign, electrocardiography, liver function, muscle enzyme, inflammatory markers and echocardiography. Predicted results 1.Oral atorvastatin therapy can effectively prevent the progression of coronary lesions in KD patients.
Major vascular surgery involves operations to repair swollen blood vessels, clear debris from blocked arteries or bypass blocked blood vessels. Patients with these problems are a high-risk surgical group as they have generalized blood vessel disease. These puts them at risk of major complications around the time of surgery such as heart attacks , strokes and death. The mortality following repair of a swollen main artery in the abdomen is about 1 in 20. This contrasts poorly with the 1 per 100 risk of death following a heart bypass. Simple and cost-effective methods are needed to reduce the risks of major vascular surgery. Remote ischaemic preconditioning (RIPC) may be such a technique. To induce RIPC, the blood supply to muscle in the patient's arm is interrupted for about 5 minutes. It is then restored for a further five minutes. This cycle is repeated three more times. The blood supply is interrupted simply by inflating a blood pressure cuff to maximum pressure. This repeated brief interruption of the muscular blood supply sends signals to critical organs such as the brain and heart, which are rendered temporarily resistant to damage from reduced blood supply. Several small randomized clinical trials in patients undergoing different types of major vascular surgery have demonstrated a potential benefit. This large, multi-centre trial aims to determine whether RIPC can reduce complications in routine practice.
The purpose of this study is to gather safety and effectiveness of the Zenith t-Branch and customized physician-specified stent-graft with a combination of fenestrations and/or branches to repair aortic aneurysm.