Carotid single- and dual-layer stents reduce the wall adhesion of platelets by influencing flow and cellular transport

Christian J. Spieker, Axelle Y. Kern, Netanel Korin, Pierre H. Mangin, Alfons G. Hoekstra, Gábor Závodszky

Research output: Contribution to journalArticlepeer-review

Abstract

An ongoing thrombosis on a ruptured atherosclerotic plaque in the carotid may cause stroke. The primary treatment for patients with tandem lesion is stenting. Dual-layer stents have been introduced as an alternative to single-layer stents for elective and emergent carotid artery stenting. While the dual-layer structure shows promise in reducing plaque prolapse through the stent struts and with it the occurrence of post-procedural embolism, there are early signs that this newer generation of stents is more thrombogenic. We investigate a single- and a dual-layer stent design to assess their influence on a set of thrombosis-related flow factors in a novel setup of combined experiments and simulations. The in vitro results reveal that both stents reduce thrombus formation by approximately 50% when human anticoagulated whole blood was perfused through macrofluidic flow chambers coated with either collagen or human atherosclerotic plaque homogenates. Simulations predict that the primary cause is reduced platelet presence in the vicinity of the wall, due to the influence of stents on flow and cellular transport. Both stents significantly alter the near-wall flow conditions, modifying shear rate, shear gradient, cell-free zones, and platelet availability. Additionally, the dual-layer stent has further increased local shear rates on the inner struts. It also displays increased stagnation zones and reduced recirculation between the outer-layer struts. Finally, the dual-layer stent shows further reduced adhesion over an atherosclerotic plaque coating. The novel approach presented here can be used to improve the design optimization process of cardiovascular stents in the future by allowing an in-depth study of the emerging flow characteristics and agonist transport.

Original languageEnglish
Article number109313
JournalComputers in Biology and Medicine
Volume183
DOIs
StatePublished - Dec 2024

Keywords

  • Carotid artery stenting
  • Cellular blood
  • Dual-layer stent
  • Single-layer stent
  • Stent thrombosis

All Science Journal Classification (ASJC) codes

  • Health Informatics
  • Computer Science Applications

Cite this