The doi above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
doi: 10.4121/14292383

Van Haaften, Eline E.; Sjeng Quicken; Wouter Huberts; Bouten, C. V. C (Carlijn); Kurniawan, Nicholas A (2021): Data underlying the publication: Computationally guided in-vitro vascular growth model reveals causal link between flow oscillations and disorganized neotissue. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/14292383.v1

Dataset

• Biomedical Engineering

Arteriovenous Dialysis Graft (AVG), Computational Fluid Dynamics, Fluid Structure Interaction

CC BY-NC-SA 4.0

RefWorks, BibTeX, Reference Manager, Endnote, DataCite, NLM, DC, CFF

by Eline E. Van Haaften , Sjeng Quicken , Wouter Huberts , C. V. C (Carlijn) Bouten , Nicholas A Kurniawan

This repository contains the data and scripts required to reproduce the subfigures of figure 2 of: van Haaften et al 2021 "Computationally guided in-vitro vascular growth model reveals causal link between flow oscillations and disorganized neotissue" related to the computational simulations.

More specifically, this repository contains:1) Datasets to visualize the time-averaged wall shear stress (TAWSS), oscillatory shear index (OSI) and the strain (ε) in graft at the venous anastomosis in Paraview.
2) Scripts and data to produce histograms of the time-averaged wall shear stress (TAWSS), oscillatory shear index (OSI) and the strain (ε) in the graft at the venous anastomosis in MATLAB

• 2021-03-29 first online, published, posted

4TU.ResearchData

Computationally guided in-vitro vascular growth model reveals causal link between flow oscillations and disorganized neotissue

TU Eindhoven, Department of Biomedical Engineering;
Maastricht University, Department of Biomedical Engineering, CARIM School for Cardiovascular Diseases