Effects of diffusion coefficients and struts apposition using numerical simulations for drug eluting coronary stents
Effects of diffusion coefficients and struts apposition using numerical simulations for drug eluting coronary stents
In the context of drug eluting stent, we present two-dimensional numerical models of mass transport of the drug in the wall and in the lumen to study the effect of the drug diffusion coefficients in the three principal media (blood, vascular wall, and polymer coating treated as a three-compartment problem) and the impact of different strut apposition configurations (fully embedded, half embedded, and not embedded). The different conditions were analyzed in terms of their consequence on the drug concentration distribution in the arterial wall. We apply the concept of the therapeutic window to the targeted vascular wall region and derive simple metrics to assess the efficiency of the various stent configurations. Although most of the drug is dispersed in the lumen, variations in the blood flow rate within the physiological range of coronary blood flow and the diffusivity of the drug molecule in the blood were shown to have a negligible effect on the amount of drug in the wall. Our results reveal that the amount of drug cumulated in the wall depends essentially on the relative values of the diffusion coefficients in the polymer coating and in the wall. Concerning the strut apposition, it is shown that the fully embedded strut configuration would provide a better concentration distribution.
733-743
Mongrain, Rosaire
c0daa049-0d87-4a22-9c0e-b56504bf51a4
Faik, Isam
22e58527-b155-4f4c-86f5-220b1543f0dc
October 2007
Mongrain, Rosaire
c0daa049-0d87-4a22-9c0e-b56504bf51a4
Faik, Isam
22e58527-b155-4f4c-86f5-220b1543f0dc
Mongrain, Rosaire and Faik, Isam
(2007)
Effects of diffusion coefficients and struts apposition using numerical simulations for drug eluting coronary stents.
Journal of Biomechanical Engineering, 129 (5), .
(doi:10.1115/1.2768381).
(PMID:17887899)
Abstract
In the context of drug eluting stent, we present two-dimensional numerical models of mass transport of the drug in the wall and in the lumen to study the effect of the drug diffusion coefficients in the three principal media (blood, vascular wall, and polymer coating treated as a three-compartment problem) and the impact of different strut apposition configurations (fully embedded, half embedded, and not embedded). The different conditions were analyzed in terms of their consequence on the drug concentration distribution in the arterial wall. We apply the concept of the therapeutic window to the targeted vascular wall region and derive simple metrics to assess the efficiency of the various stent configurations. Although most of the drug is dispersed in the lumen, variations in the blood flow rate within the physiological range of coronary blood flow and the diffusivity of the drug molecule in the blood were shown to have a negligible effect on the amount of drug in the wall. Our results reveal that the amount of drug cumulated in the wall depends essentially on the relative values of the diffusion coefficients in the polymer coating and in the wall. Concerning the strut apposition, it is shown that the fully embedded strut configuration would provide a better concentration distribution.
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Published date: October 2007
Organisations:
Centre for Innovation & Enterprise
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Local EPrints ID: 345741
URI: http://eprints.soton.ac.uk/id/eprint/345741
ISSN: 0148-0731
PURE UUID: 66deab89-4932-44bb-a3f7-39d7fadef188
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Date deposited: 26 Feb 2013 12:58
Last modified: 14 Mar 2024 12:28
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Author:
Rosaire Mongrain
Author:
Isam Faik
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