Abstract

Background: Flow diverters (FD) are increasingly used in the treatment of intracranial aneurysms. The risk of distal thromboembolic complications with FD is high, even in patients treated with dual antiplatelet therapy. The aim of the study was to understand the downstream vascular wall changes, by measuring the pulse wave velocity and vascular contractility following flow diverter treatment in a rabbit model. Methods: FD (Pipeline Embolic Device, Medtronic) were implanted in normal rabbits and sham-operated aorta were used as controls (n=5 for each group). Pulse wave imaging with ultra-fast ultrasound at 1600 frames per second (Vantage, Verasonics, Inc.) was performed in the vessel wall distal to FD, prior to device implantation and at 8 weeks follow up to measure the pulse wave propagation. Force contraction studies were conducted in the aortic rings using organ bath to assess the vascular functions. Results: The difference in pulse wave velocity (PWV) in the follow-up compared to pre-implantation was significantly higher (p=0.03,Fig 1A) in the distal vessels compared to sham controls (mean difference of PWV was 1.18 m/s and -0.37m/s, respectively as shown in Fig 1B). Conversely, the distal aortic segments to FD exhibited 55% increase in the level of vascular contractility compared to that of proximal segments (p=0.002). There is a significant positive correlation between mean PWV and mean vascular contractility. Conclusion: Our study found changes in the PWV after implantation of the FD, which correlated with vascular contractility. These results could explain vascular wall changes downstream following FD implantation.

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