2013
DOI: 10.1021/la402952u
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Engineered Antifouling Microtopographies: An Energetic Model That Predicts Cell Attachment

Abstract: We have developed a model for the prediction of cell attachment to engineered microtopographies based on two previous models: the attachment point theory and the engineered roughness index (ERI) model. The new surface energetic attachment (SEA) model is based on both the properties of the cell-material interface and the size and configuration of the topography relative to the organism. We have used Monte Carlo simulation to examine the SEA model's ability to predict relative attachment of the green alga Ulva l… Show more

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Cited by 64 publications
(64 citation statements)
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“…The bioinspired micropatterned surface provides a device interface that controls bacterial colonization and transference through an ordered arrangement of microscopic features [25]. The physical arrangement enhances the hydrophobicity of the device surface such that the bacteria attachment energy is insufficient for adherence and/or colonization [25]. Adherence prevention and translocation restriction have been demonstrated here, and are believed to contribute significantly to restricting the risk of device-associated infections.…”
Section: Discussionmentioning
confidence: 82%
See 2 more Smart Citations
“…The bioinspired micropatterned surface provides a device interface that controls bacterial colonization and transference through an ordered arrangement of microscopic features [25]. The physical arrangement enhances the hydrophobicity of the device surface such that the bacteria attachment energy is insufficient for adherence and/or colonization [25]. Adherence prevention and translocation restriction have been demonstrated here, and are believed to contribute significantly to restricting the risk of device-associated infections.…”
Section: Discussionmentioning
confidence: 82%
“…Microbial attachment and translocation are critical factors potentiating device-associated infections [37][38][39][40]. The bioinspired micropatterned surface provides a device interface that controls bacterial colonization and transference through an ordered arrangement of microscopic features [25]. The physical arrangement enhances the hydrophobicity of the device surface such that the bacteria attachment energy is insufficient for adherence and/or colonization [25].…”
Section: Discussionmentioning
confidence: 99%
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“…A similar phenomenon has also been observed on the surface of titanium that was modified to mimic the surface structure of the lotus leaf . Decker et al (2013) engineered particular surface microtopologies and developed a correlation between a roughness index based on Wenzel and Cassie wetting parameters and the energetics of cell attachment using a statistical mechanical approach, which was shown to be consistent for a wide range of organisms modeled on a planar surface.…”
Section: Bacterial Attachment Onto Alkane Microcrystallitesmentioning
confidence: 99%
“…A great deal of effort towards producing bacteria-resistant surfaces has focused on the prevention of initial bacterial attachment rather than on the eradication of bacteria after attachment has taken place Crawford et al 2012). Oriented surface patterns at the micro-and nano-scale have been investigated recently as an alternative approach for controlling bacterial colonization (DĂ­az et al 2007;Decker et al 2013). Hochbaum and Aizenberg (2010) termed this approach 'mechanoselective adhesion', where high-aspect-ratio (HAR) surface nanostructure arrays induce long range spontaneous spatial patterning of bacterial cells (Hochbaum & Aizenberg 2010;Epstein et al 2011).…”
Section: Introductionmentioning
confidence: 99%