Clinical evaluation of high-resolution cone-beam computed tomography for the implantation of flow-diverter stents in intracranial aneurysms.

It is well-established that complete expansion and proper apposition to the vessel wall of flow-diverter stents are critical for optimizing endovascular aneurysm outcomes by using flow diversion techniques. We aimed to evaluate the clinical value of high-resolution cone-beam CT (HR-CBCT) upon flow-diverter stent implantation in intracranial aneurysms. In this study, we retrospectively analyzed the clinical data of eighty-one patients (101 intracranial aneurysms) who underwent flow-diverter stent implantation (Pipeline™ or Tubridge™). Images were reconstructed using conventional cone-beam CT (CBCT)(voxel size 0.43 mm isotropic) and HR-CBCT(voxel size 0.15 mm isotropic). Immediately after stent deployment, dual volume 3D fusion images were obtained from 3D-digital subtraction angiography (DSA) and HR-CBCT. The image quality for stent visualization was graded from 0 to 2 (0:not able to assess, 1:limited, but able to assess; 2:clear visualization), and the stent expansion status (full, under-expanded or poor apposition) was also recorded. Finally, patients were treated using flow-diverter stents (n = 92: 17 Pipeline and 75 Tubridge). Compared to CBCT, HR-CBCT led to improved visualization of the structures of the stents and significantly improved the image quality (mean score: 0.59 ± 0.67 vs. 1.6 ± 0.63, P < 0.001). For 28 stents (seven Pipeline and 21 Tubridge), partially incomplete apposition was observed by HR-CBCT but not by conventional CBCT and resolved by microguidewire looping dilation or balloon dilation. High-resolution cone-beam CT could better display flow-diverter stent details and yielded an improved image quality, which facilitated the assessment of stent deployment, potentially reducing the incidence of complications.