File:Multiscale-Mechano-Biological-Finite-Element-Modelling-of-Oncoplastic-Breast-Surgery—Numerical-pone.0159766.s011.ogv

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Original file(Ogg Theora video file, length 6.1 s, 1,104 × 791 pixels, 3.14 Mbps, file size: 2.28 MB)

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English: Wound Healing Simulation for Patient Case P-4 : Capillary Density. The volume rendering represents the (normalised dimensionless) capillary density, υ/υ0, in the operated tissue region. At the beginning of the simulation no capillaries are present in this region, hence υ/υ0 = 0. During the wound healing simulation new sprouts are forming at the undamaged–operated breast tissue interface, therefore, neo-vascularisation extends (modelled here as a diffusion process) towards the centre of the operated region. At the end of the analysis, after 50 days approximately, the capillary density has been restored locally thus reaching its maximum value, and vascular growth comes nearly to a halt. For explanation of the two-dimensional plot, see the description in S1 Video.
Date
Source S2 Video from Vavourakis V, Eiben B, Hipwell J, Williams N, Keshtgar M, Hawkes D (2016). "Multiscale Mechano-Biological Finite Element Modelling of Oncoplastic Breast Surgery—Numerical Study towards Surgical Planning and Cosmetic Outcome Prediction". PLOS ONE. DOI:10.1371/journal.pone.0159766. PMID 27466815. PMC: 4965022.
Author Vavourakis V, Eiben B, Hipwell J, Williams N, Keshtgar M, Hawkes D
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This file was transferred to Wikimedia Commons from PubMed Central by way of the Open Access Media Importer.
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Date/TimeThumbnailDimensionsUserComment
current20:32, 26 August 20166.1 s, 1,104 × 791 (2.28 MB)Open Access Media Importer Bot (talk | contribs)Automatically uploaded media file from Open Access source. Please report problems or suggestions here.

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