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Impact of Malapposed and Overlapping Stents on Hemodynamics: A 2D Parametric Computational Fluid Dynamics Study

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  • Manuel Lagache

    (Laboratory SYMME, Savoie Mont-Blanc University, 73000 Chambéry, France
    Savoie Mont-Blanc University, Polytech Annecy-Chambéry, 73370 Le Bourget du Lac, France
    Laboratory TIMC-IMAG, CNRS, UMR5525, Grenoble-Alpes University, 38400 Grenoble, France)

  • Ricardo Coppel

    (Laboratory SYMME, Savoie Mont-Blanc University, 73000 Chambéry, France
    Savoie Mont-Blanc University, Polytech Annecy-Chambéry, 73370 Le Bourget du Lac, France)

  • Gérard Finet

    (Department of Hemodynamics and Interventional Cardiology, Hospices Civils de Lyon and Claude Bernard University Lyon 1, INSERM Unit 886, 69622 Lyon, France)

  • François Derimay

    (Department of Hemodynamics and Interventional Cardiology, Hospices Civils de Lyon and Claude Bernard University Lyon 1, INSERM Unit 886, 69622 Lyon, France)

  • Roderic I. Pettigrew

    (CEO, Engineering Health (EnHealth) and Executive Dean, Engineering Medicine (EnMed), Texas A&M University and Houston Methodist Hospital, Houston, TX 77030, USA)

  • Jacques Ohayon

    (Laboratory SYMME, Savoie Mont-Blanc University, 73000 Chambéry, France
    Laboratory TIMC-IMAG, CNRS, UMR5525, Grenoble-Alpes University, 38400 Grenoble, France)

  • Mauro Malvè

    (Department of Engineering, Public University of Navarra, 31006 Pamplona, Spain
    CIBER-BBN, Research Networking in Bioengineering, Biomaterials & Nanomedicine, 50018 Zaragoza, Spain)

Abstract

Despite significant progress, malapposed or overlapped stents are a complication that affects daily percutaneous coronary intervention (PCI) procedures. These malapposed stents affect blood flow and create a micro re-circulatory environment. These disturbances are often associated with a change in Wall Shear Stress (WSS), Time-averaged WSS (TAWSS), relative residence time (RRT) and oscillatory character of WSS and disrupt the delicate balance of vascular biology, providing a possible source of thrombosis and restenosis. In this study, 2D axisymmetric parametric computational fluid dynamics (CFD) simulations were performed to systematically analyze the hemodynamic effects of malapposition and stent overlap for two types of stents (drug-eluting stent and a bioresorbable stent). The results of the modeling are mainly analyzed using streamlines, TAWSS, oscillatory shear index (OSI) and RRT. The risks of restenosis and thrombus are evaluated according to commonly accepted thresholds for TAWSS and OSI. The small malapposition distances (MD) cause both low TAWSS and high OSI, which are potential adverse outcomes. The region of low OSI decrease with MD. Overlap configurations produce areas with low WSS and high OSI. The affected lengths are relatively insensitive to the overlap distance. The effects of strut size are even more sensitive and adverse for overlap configurations compared to a well-applied stent.

Suggested Citation

  • Manuel Lagache & Ricardo Coppel & Gérard Finet & François Derimay & Roderic I. Pettigrew & Jacques Ohayon & Mauro Malvè, 2021. "Impact of Malapposed and Overlapping Stents on Hemodynamics: A 2D Parametric Computational Fluid Dynamics Study," Mathematics, MDPI, vol. 9(8), pages 1-19, April.
    • Handle: RePEc:gam:jmathe:v:9:y:2021:i:8:p:795-:d:531513
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    References listed on IDEAS

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    1. S. I. S. Pinto & J. B. L. M. Campos, 2016. "Numerical study of wall shear stress-based descriptors in the human left coronary artery," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 19(13), pages 1443-1455, October.
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