Data from: A cell-based mechanical model of coronary artery tunica media

Melnikova NB, Svitenkov AI, Hose DR, Hoekstra AG

Date Published: July 7, 2017

DOI: http://dx.doi.org/10.5061/dryad.2t208

 

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Title Axial stretch simulation
Downloaded 2 times
Description In-silico stretching in the axial direction. The colour palette represents the distribution of axial projections of intercellular forces SX, [N].
Download X-stretch_X_stress.avi (5.732 Mb)
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Title Circumferential stretch simulation
Downloaded 2 times
Description In-silico stretching in circumferential direction. The colour palette represents the distribution of circumferential projections of intercellular forces SZ, [N].
Download Z-stretch.avi (7.315 Mb)
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Title Stent deployment simulation.
Downloaded 2 times
Description Stent deployment is simulated by imposing a kinematic boundary condition on the radial displacements of the cells contacting with the struts (these cells are shown in red in Figure 10a). The radial displacements of stent struts equal to 0.1 of the vessel’s inner radius. The colour palette represents the distribution of circumferential projections of intercellular forces SFI, [N].
Download stenting_slow.avi (1.458 Mb)
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Title Opening angle modelling
Downloaded 2 times
Description Simulation of an open angle formation for a ring fragment of tunica media with an axial cut. The colour palette represents the circumferential forces distribution SFI, [N]
Download op_angle_bend_asym_force3D.avi (4.244 Mb)
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When using this data, please cite the original publication:

Melnikova NB, Svitenkov AI, Hose DR, Hoekstra AG (2017) A cell-based mechanical model of coronary artery tunica media. Journal of the Royal Society Interface 14(132): 20170028. http://dx.doi.org/10.1098/rsif.2017.0028

Additionally, please cite the Dryad data package:

Melnikova NB, Svitenkov AI, Hose DR, Hoekstra AG (2017) Data from: A cell-based mechanical model of coronary artery tunica media. Dryad Digital Repository. http://dx.doi.org/10.5061/dryad.2t208
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