Flow Evaluation of a Compliant Coronary Artery Anastomosis Model

Pedro D. Pedroso, R. Venugopalan, A. Anayiotos
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Abstract

Coronary artery bypass grafting (CABG) is a common surgical procedure for coronary artery diseases or severe stenosis of the coronary arteries. It makes use of a peripheral vein (usually the saphenous vein of the leg) to form a conduit between the aorta and the coronary artery distal to the obstructive lesion. It is rapidly becoming the treatment of choice in cases where the vessel is more than 70% occluded or when angioplasty is not possible. However, a significant number of grafts subsequently fail due to acute thrombosis in the early post-operative period or to restenosis within months or years. Intimal thickening in the CABG anastomosis has been implicated as the major cause of restenosis and long-term graft failure. Several studies point to the interplay between non-uniform hemodynamics (including disturbed flows and recirculation zones), wall shear stress, and long particle residence time as possible etiologies. An important feature of the anastomosis geometry, is a bulge that forms at the veno-arterial junction. This sinus forms as a result of the stretching of the thin venous wall when the graft is exposed to aortic pressure conditions. The resultant sinus, and the impedance mismatch of the vein-artery connection, contribute to a complicated region of highly disturbed flow at the divider and may have a primary role in restenosis and final failure of the graft.
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顺应性冠状动脉吻合模型的血流评价
冠状动脉旁路移植术(CABG)是治疗冠状动脉疾病或冠状动脉严重狭窄的常用手术方法。它利用外周静脉(通常是腿的隐静脉)在主动脉和远端阻塞病变的冠状动脉之间形成导管。在血管阻塞超过70%或血管成形术不可行的情况下,它迅速成为治疗的选择。然而,大量移植物在术后早期因急性血栓形成或数月或数年内再狭窄而失败。冠状动脉搭桥吻合的内膜增厚已被认为是再狭窄和长期移植失败的主要原因。一些研究指出,不均匀的血流动力学(包括紊乱的流动和再循环区)、壁面剪切应力和长颗粒停留时间之间的相互作用是可能的病因。吻合几何的一个重要特征是在静脉-动脉交界处形成一个凸起。当移植物暴露在主动脉压力条件下时,由于薄静脉壁的拉伸而形成的静脉窦。由此产生的窦,以及静脉-动脉连接的阻抗不匹配,导致了分隔处复杂的血流高度紊乱,可能是再狭窄和移植物最终衰竭的主要原因。
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