Computational Optimization of a Stent for the Femoropopliteal Artery
Alexey Kamenskiy, Jason MacTaggart, Anastasia Desyatova

TL;DR
Researchers optimized stent design for better performance in the femoropopliteal artery using computational methods to improve outcomes in peripheral artery disease.
Contribution
A novel multi-objective optimization approach for nitinol stent design in dynamic arterial regions is introduced.
Findings
Optimized stent configurations achieved >97% stent-artery apposition and reduced arterial stress.
Lower strut amplitude and reduced cross-sections improved apposition but required balancing to avoid pinching.
Link amplitude had minimal impact on stent performance.
Abstract
Clinical outcomes of peripheral artery disease (PAD) stenting, particularly in the highly dynamic regions of the femoropopliteal artery at the adductor hiatus and behind the knee, leave significant room for improvement. Despite the availability of various stent designs, few are capable of accommodating the severe deformations induced by limb flexion at these locations without causing adverse stent-artery interactions. This study employed finite element analysis and response surface methodology to optimize the geometric design of nitinol PAD stents, with the objectives of improving stent-artery apposition, reducing arterial wall stress, minimizing stress concentrations, and decreasing arterial pinching under limb flexion-induced deformations. Five geometric parameters - strut width, thickness, amplitude, number, and link amplitude - were analyzed to assess their influence on stent…
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Taxonomy
TopicsPeripheral Artery Disease Management · Coronary Interventions and Diagnostics · Vascular Procedures and Complications
