2013
DOI: 10.1016/j.jmbbm.2013.03.018
|View full text |Cite
|
Sign up to set email alerts
|

Growth on demand: Reviewing the mechanobiology of stretched skin

Abstract: Skin is a highly dynamic, autoregulated, living system that responds to mechanical stretch through a net gain in skin surface area. Tissue expansion uses the concept of controlled overstretch to grow extra skin for defect repair in situ. While the short-term mechanics of stretched skin have been studied intensely by testing explanted tissue samples ex vivo, we know very little about the long-term biomechanics and mechanobiology of living skin in vivo. redHere we explore the long-term effects of mechanical stre… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

2
79
0

Year Published

2014
2014
2022
2022

Publication Types

Select...
7
1

Relationship

3
5

Authors

Journals

citations
Cited by 99 publications
(81 citation statements)
references
References 70 publications
2
79
0
Order By: Relevance
“…An attractive feature of computational models is the ability to quantify physical parameters required to obtain a specific outcome. For example, Prof. Kuhl's group at Stanford University has pioneered the development of mechanobiological adaptation models for skin to optimize the outcome of reconstructive surgery procedures in children [61][62][63][64][65][66][67] Streamline plots representing the maximum (coloured) and minimum (white) principal strain vectors in a finite deformation 2D plane-strain image-based finite-element model of the skin subjected to 20% in-plane compression (adapted from [20]). Grey arrows indicate the direction and location of the applied load.…”
Section: (B) Classification Of Constitutive Modelsmentioning
confidence: 99%
See 1 more Smart Citation
“…An attractive feature of computational models is the ability to quantify physical parameters required to obtain a specific outcome. For example, Prof. Kuhl's group at Stanford University has pioneered the development of mechanobiological adaptation models for skin to optimize the outcome of reconstructive surgery procedures in children [61][62][63][64][65][66][67] Streamline plots representing the maximum (coloured) and minimum (white) principal strain vectors in a finite deformation 2D plane-strain image-based finite-element model of the skin subjected to 20% in-plane compression (adapted from [20]). Grey arrows indicate the direction and location of the applied load.…”
Section: (B) Classification Of Constitutive Modelsmentioning
confidence: 99%
“…internal variable) strain-like internal variables E k in the reference configuration, the free energy of a viscoelastic material can be defined as follows [87]: 67) where, in analogy with equation (4.52), the free energy (and stress) can be split into equilibrium and non-equilibrium contributions associated, respectively, with elastic and viscous deformation mechanisms:…”
Section: (Iv) Internal Variables Based On Stress Decompositionmentioning
confidence: 99%
“…A wide array of experimental and clinical measurement techniques are used to characterise particular aspects of skin biology and biophysics (Alexiades-Armenakas, 2007;Batisse et al, 2002;Bellemere et al, 2009;Delalleau et al, 2006;Diridollou et al, 2000;Gunner et al, 1979;Hendriks et al, 2006;Jor et al, 2013;Limbert and Simms, 2013;Tonge et al, 2013a;Tonge et al, 2013b;Wan Abas, 1994). Nevertheless, complementary approaches based on mathematical and computational modelling techniques offer promising avenues to further our understanding of the skin (Areias et al, 2003;Bischoff et al, 2000;Boissieux et al, 2000;Buganza Tepole and Kuhl, 2014;Cavicchi et al, 2009;Duan et al, 2000;Evans, 2009;Flynn and McCormack, 2008a, b;Flynn andMcCormack, 2009, 2010;Hendriks et al, 2006;Hendriks et al, 2003;Kuwazuru et al, 2008;Larrabee and Galt, 1986a, b;Larrabee and Sutton, 1986;Lévêque and Audoly, 2013;Tepole et al, 2014a;Tepole et al, 2014b;Tepole et al, 2011;Zöllner et al, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…Skin is a pseudo-solid composite microstructural material comprising two layers: the dermis and the epidermis [147] -both of which are inhomogeneous in terms of structure and composition [148]. According to Zöllner and co-workers, skin is a highly dynamic auto-regulated, living system that responds to stretch through a net gain in skin surface area [147].…”
Section: Skinmentioning
confidence: 99%
“…According to Zöllner and co-workers, skin is a highly dynamic auto-regulated, living system that responds to stretch through a net gain in skin surface area [147]. The important mechanical properties of skin include: extensibility (stretching capacity), resistance to friction and response to lateral compressive loading [148].…”
Section: Skinmentioning
confidence: 99%