3D mathematical model for blood flow and non-Fickian mass transport by a coronary drug-eluting stent
From MaRDI portal
Publication:2281876
DOI10.1016/j.apm.2017.01.057zbMath1443.76034OpenAlexW2581657978MaRDI QIDQ2281876
Publication date: 6 January 2020
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apm.2017.01.057
Physiological flows (76Z05) Mathematical modeling or simulation for problems pertaining to fluid mechanics (76-10) Mathematical modeling or simulation for problems pertaining to biology (92-10)
Related Items (4)
Multiscale Boundary Conditions for Non-Fickian Diffusion Applied to Drug-Eluting Stents ⋮ An implicit discontinuous Galerkin scheme for solving the cardiovascular drug-eluting stents' model ⋮ Multiscale Boundary Conditions for Drug Dissolution Applied to Coronary Stents ⋮ AN EXPLICIT SPECTRAL COLLOCATION METHOD FOR THE DRUG RELEASE CORONARY STENTS
Cites Work
- Mathematical modeling and simulation of the evolution of plaques in blood vessels
- On the role of specific drug binding in modelling arterial eluting stents
- Numerical approximation with Nitsche's coupling of transient Stokes/Darcy's flow problems applied to hemodynamics
- Mathematical modeling of coupled drug and drug-encapsulated nanoparticle transport in patient-specific coronary artery walls
- A decade of modelling drug release from arterial stents
- Mass transfer by advection and diffusion from a drug-eluting stent
- Platelet deposition in non-parallel flow
- Cardiovascular mathematics. Modeling and simulation of the circulatory system
- Numerical simulation of drug eluting coronary stents: mechanics, fluid dynamics and drug release
- Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations
- A new look to non-Fickian diffusion
- A second order approximation for quasilinear non-Fickian diffusion models
- Robust numerical approximation of coupled Stokes' and Darcy's flows applied to vascular hemodynamics and biochemical transport
- MODELING POLYMERIC CONTROLLED DRUG RELEASE AND TRANSPORT PHENOMENA IN THE ARTERIAL TISSUE
- Multiscale Boundary Conditions for Drug Release from Cardiovascular Stents
- A 3D Model for Mechanistic Control of Drug Release
- Model Reduction Strategies Enable Computational Analysis of Controlled Drug Release from Cardiovascular Stents
- Unified Stabilized Finite Element Formulations for the Stokes and the Darcy Problems
- Sharp Fronts Due to Diffusion and Viscoelastic Relaxation in Polymers
- A Domain Decomposition Method Based on Weighted Interior Penalties for Advection‐Diffusion‐Reaction Problems
This page was built for publication: 3D mathematical model for blood flow and non-Fickian mass transport by a coronary drug-eluting stent
