View clinical trials related to Aneurysm, Dissecting.
Filter by: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.
Traditionally, loss-of-resistance (LOR) to air or saline with a special ground-glass syringe is the technique used to identify epidural space, but failure rates up to 30% have been reported using this technique for thoracic epidural placement. This failure rate has sparked the search for newer techniques to improve the success rate for placement.The CompuFlo epidural system is a device that provides anesthesiologists and other healthcare providers the ability to quantitatively determine and document the pressure at the needle tip in real time. The device's proprietary dynamic pressure sensing technology (DPS) allows it to provide objective visual and audible in-tissue pressure feedback that allows anesthesiologists to identify the epidural space. The purpose this research study is to compare the success rate of the two different approaches (traditional method v/s CompuFlo assisted) to thoracic epidural placement.
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.
A prospective, multi-centre, objective performance criteria clinical trial to evaluate the safety and efficacy of Artery Stent Graft System manufactured by Lifetech Scientific (Shenzhen) Co., LTD. for the thoracic aortic dissection involving the aortic arch.
This study will determine the value of TOD (first rib resection with partial scalenectomy and neurolysis) on functionality and quality of life for patients with neurogenic thoracic outlet syndrome. This will be done by randomizing patients into surgery or conservative therapy (physiotherapy and pain relief).
To ensure adequate seal of currently available stent grafts, a proximal 20 mm of healthy aorta is recommended. Extending the proximal landing zone into the arch by intentional covering of the left subclavian artery (LSA) without revascularization expose to serious neurologic complications. Serious risks are also known to accompany subclavian revascularization. The Valiant Mona LSA Thoracic Stent Graft System (Medtronic,Santa Rosa, Calif) consists of a main stent graft and a branch stent graft designed to maintain LSA patency. The purpose of this study is to characterize the safety and effectiveness of this device for the treatment of Aneurysms and chronic Type B dissections of the arch.
The purpose of this national observational study is to evaluate the Thoraflex™ Hybrid vascular prosthesis in the replacement of the aortic arch and the treatment of aneurysm/dissection of the descending thoracic aorta in relation to morbidity-mortality, visceral malperfusions, neurological and renal complications, endoleak and evolution of the aortic thoracic stent over time.
Perioperative fluid management is crucial for patients' outcome. Muller et al developed a "Mini-fluid challenge method " to predict fluid responsiveness and the efficacy. The investigators design the study to investigate the effectiveness of mini-fluid challenge test in video assisted thoracic surgery.
The investigators designed a study to assess whether thoracic paravertebral blocks using a combination of ropivacaine and dexmedetomidine prolong nerve block duration.
This study investigate CT images of patients with spontaneous isolated superior mesenteric artery dissection (SISMAD). The investigators also further analyze the CT morphological differences between different options, aiming to determine "alarming CT character" during initial conservative treatment.