J Tang1, Y Wang, W Hang, W Fu, Z Jing. 1. Department of Vascular Surgery, Zhongshan Hospital, Fudan University, Shanghai, China. drtangjingdong @ 126.com
Abstract
BACKGROUND/AIMS: Stanford type A and type B aortic dissections are anatomically distinct. Few animal models appropriately mimic human aortic dissection in the clinical setting. We developed animal models that mimicked uncontrollable Stanford type B aortic dissection as well as controllable dissection. METHODS: Twelve female beagle dogs were randomly assigned to the uncontrollable dissection model, and 8 to the controllable. After creation of the false lumen using a self-made separator, epinephrine was injected acutely in the uncontrollable model, and a rapid injection of saline expanded the false lumen in the controllable model using a balloon catheter. RESULTS: All models mimicked Stanford type B dissection at autopsy. Dissections formed in 9 of the 12 animals of the uncontrollable model as confirmed by digital subtraction angiography (DSA) performed 1 week after surgery. For the controllable dissection model, 6 out of 8 animals survived, and dissection was confirmed by DSA. Occlusion of the dissection developed 4 weeks after surgery in all 6 cases. CONCLUSIONS: We have developed an easy, stable animal model of Stanford type B dissection which provides a great length of false lumen and appears very similar to aortic dissection in humans. (c) 2010 S. Karger AG, Basel.
BACKGROUND/AIMS: Stanford type A and type B aortic dissections are anatomically distinct. Few animal models appropriately mimic human aortic dissection in the clinical setting. We developed animal models that mimicked uncontrollable Stanford type B aortic dissection as well as controllable dissection. METHODS: Twelve female beagle dogs were randomly assigned to the uncontrollable dissection model, and 8 to the controllable. After creation of the false lumen using a self-made separator, epinephrine was injected acutely in the uncontrollable model, and a rapid injection of saline expanded the false lumen in the controllable model using a balloon catheter. RESULTS: All models mimicked Stanford type B dissection at autopsy. Dissections formed in 9 of the 12 animals of the uncontrollable model as confirmed by digital subtraction angiography (DSA) performed 1 week after surgery. For the controllable dissection model, 6 out of 8 animals survived, and dissection was confirmed by DSA. Occlusion of the dissection developed 4 weeks after surgery in all 6 cases. CONCLUSIONS: We have developed an easy, stable animal model of Stanford type B dissection which provides a great length of false lumen and appears very similar to aortic dissection in humans. (c) 2010 S. Karger AG, Basel.