2012
DOI: 10.1089/ten.tea.2011.0307
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The Effect of Nano-Scale Topography on Keratinocyte Phenotype and Wound Healing Following Burn Injury

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Cited by 26 publications
(31 citation statements)
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“…Parkinson et al demonstrated that the size of nano-pores on aluminum oxide membranes influenced the rate of keratocyte proliferation and migration in vitro [29]. In addition, the use of topographically patterned membranes as dressings lead to less granulation tissue and a more mature epidermal layer in skin than control standard burn dressings in vivo [30]. …”
Section: Discussionmentioning
confidence: 99%
“…Parkinson et al demonstrated that the size of nano-pores on aluminum oxide membranes influenced the rate of keratocyte proliferation and migration in vitro [29]. In addition, the use of topographically patterned membranes as dressings lead to less granulation tissue and a more mature epidermal layer in skin than control standard burn dressings in vivo [30]. …”
Section: Discussionmentioning
confidence: 99%
“…4 5 AAO can form different types of anodic oxides: a non-porous barrier type, when fabricated using neutral electrolytes, and a porous-type oxide, when fabricated using acidic electrolytes. Nanoporous alumina is a suitable template for the production of nanostructures 6 and has been used in medical applications, e.g., tissue engineering, in recent years based on reports that various types of cells, such as neurons, 7 hepatic cells, 8 smooth muscle cells, 9 keratinocytes, 10 fibroblasts, 11 and osteoblasts, 12 are capable of attaching to its surface. Furthermore, neurite outgrowth is known to be accelerated by pitch-dependent AAO substrates, 7 and hepatic cell growth is accelerated on self-supporting, mechanically stabilized nanoporous aluminum oxide membranes.…”
Section: Introductionmentioning
confidence: 99%
“…A previous study using keratinocytes grown on aluminum oxide nanoporous membranes also showed that greater cell spreading correlated with higher levels of proliferation. 15 Therefore, we hypothesized that decreased cell spreading will lead to lower proliferation on the SA samples compared with the other substrates in the study.…”
Section: Resultsmentioning
confidence: 99%
“…A previous study using aluminum oxide membranes showed that nanopore size influences keratinocyte proliferation and migration, both of which affect wound repair and reconstruction. 15 Another study using fibroblasts cultured on polymer microrods showed that microtopography affected cell proliferation and downregulated synthesis of matrix proteins involved in scar formation. 16 Additionally, previous work in our group using corneal fibroblasts cultured on collagen nanofibrillar substrates has shown that both fibril diameter and alignment promote the quiescent keratocyte phenotype and downregulate matrix synthesis.…”
mentioning
confidence: 99%