Journal of vascular surgery
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We investigated the outcomes of reinforcing anastomotic sites using (1) nonbiodegradable polytetrafluoroethylene (PTFE) felt, (2) biodegradable polyglycolic acid (PGA) felt, and (3) PGA felt with basic fibroblast growth factor (bFGF) in a canine descending thoracic aortic replacement model. ⋯ Reinforcement of the experimental aortic wall with PTFE felt resulted in thinning of the media and adventitia and fewer vessels at the anastomotic site. These histologic changes were not observed when biodegradable felt was used. The bFGF failed to augment the modification of the aortic wall with the exception of increased adventitial vessel number. Biomechanical strength of the anastomosis along the longitudinal axis was comparable in all four groups; however, local vascular compliance was better in the biodegradable PGA felt group.
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Comment Letter Historical Article
Why is the last name of William Stewart Halsted misspelled as "Halstead"?
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Catheter-associated upper extremity deep venous thrombosis (CAUEDVT) is well known; however, resolution rates and factors affecting resolution of CAUEDVT are not well characterized. This study determined resolution rates and factors associated with resolution of CAUEDVT. ⋯ More than half of CAUEDVT resolve
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Comparative Study
A comparative analysis of open and endovascular repair for the ruptured descending thoracic aorta.
Successful repair of the ruptured (non-traumatic) descending thoracic aorta (rTA) remains a formidable clinical challenge. Although effective for rTA, traditional open repair (DTAR) has significant associated morbidity. With expanding indications for thoracic endovascular aortic repair (TEVAR), we describe our experience with TEVAR and DTAR in this high-risk setting to elucidate their evolving roles. ⋯ An endovascular approach for the ruptured (non-traumatic) descending thoracic aorta reduces early morbidity, mortality, and duration of hospitalization, while providing equivalent late outcomes even in an older group largely considered high risk for open repair. These data support a paradigm shift, with TEVAR emerging as the preferred therapy for all patients presenting with descending aortic rupture.