2018
DOI: 10.1002/adhm.201801103
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Multifunctional Coatings and Nanotopographies: Toward Cell Instructive and Antibacterial Implants

Abstract: In biomaterials science, it is nowadays well accepted that improving the biointegration of dental and orthopedic implants with surrounding tissues is a major goal. However, implant surfaces that support osteointegration may also favor colonization of bacterial cells. Infection of biomaterials and subsequent biofilm formation can have devastating effects and reduce patient quality of life, representing an emerging concern in healthcare. Conversely, efforts toward inhibiting bacterial colonization may impair bio… Show more

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Cited by 187 publications
(180 citation statements)
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References 299 publications
(404 reference statements)
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“…www.advmat.de www.advancedsciencenews.com the impact on cytoskeletal tension [104,236,258,392,[416][417][418] (for a comprehensive overview of this area, see the reviews of Dalby and co-workers). [9,10] Similar responses have subsequently been demonstrated using high-aspect-ratio titanium nanorods, [393] and polymer-based nano-and micropillars, [146,419] showing that both nanopits and nanostructures can trigger similar behaviors.…”
Section: Surfaces For Inducing Differentiationmentioning
confidence: 68%
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“…www.advmat.de www.advancedsciencenews.com the impact on cytoskeletal tension [104,236,258,392,[416][417][418] (for a comprehensive overview of this area, see the reviews of Dalby and co-workers). [9,10] Similar responses have subsequently been demonstrated using high-aspect-ratio titanium nanorods, [393] and polymer-based nano-and micropillars, [146,419] showing that both nanopits and nanostructures can trigger similar behaviors.…”
Section: Surfaces For Inducing Differentiationmentioning
confidence: 68%
“…At the cell membrane, they can modulate the ability of cells to form focal adhesions, complex multi‐protein assemblies that span the membrane and provide a physical anchor between the cell and the outer environment . This effect may be particularly pertinent on substrates with nanoscale features (geometry or porosity) that are on a similar length scale to filopodia (nanoscale, environment‐sensing cell protrusions) or integrin receptors (transmembrane proteins that facilitate external binding) …”
Section: Biomechanical Cuesmentioning
confidence: 99%
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