FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2162234852> ?p ?o ?g. }

• W2162234852 endingPage "875" @default.
• W2162234852 startingPage "868" @default.
• W2162234852 abstract "Bacterial attachment and biofilm formation are problematic for medical devices. Hook et al. present a high-throughput method to find materials that resist bacterial attachment and colonization. Bacterial attachment and subsequent biofilm formation pose key challenges to the optimal performance of medical devices. In this study, we determined the attachment of selected bacterial species to hundreds of polymeric materials in a high-throughput microarray format. Using this method, we identified a group of structurally related materials comprising ester and cyclic hydrocarbon moieties that substantially reduced the attachment of pathogenic bacteria (Pseudomonas aeruginosa, Staphylococcus aureus and Escherichia coli). Coating silicone with these 'hit' materials achieved up to a 30-fold (96.7%) reduction in the surface area covered by bacteria compared with a commercial silver hydrogel coating in vitro, and the same material coatings were effective at reducing bacterial attachment in vivo in a mouse implant infection model. These polymers represent a class of materials that reduce the attachment of bacteria that could not have been predicted to have this property from the current understanding of bacteria-surface interactions." @default.
• W2162234852 created "2016-06-24" @default.
• W2162234852 creator A5000799051 @default.
• W2162234852 creator A5004331670 @default.
• W2162234852 creator A5004669019 @default.
• W2162234852 creator A5017730248 @default.
• W2162234852 creator A5036096394 @default.
• W2162234852 creator A5037109370 @default.
• W2162234852 creator A5044265919 @default.
• W2162234852 creator A5053599027 @default.
• W2162234852 creator A5055885694 @default.
• W2162234852 creator A5063871353 @default.
• W2162234852 creator A5064718443 @default.
• W2162234852 creator A5067068462 @default.
• W2162234852 creator A5070996663 @default.
• W2162234852 creator A5080582631 @default.
• W2162234852 date "2012-08-12" @default.
• W2162234852 modified "2023-10-18" @default.
• W2162234852 title "Combinatorial discovery of polymers resistant to bacterial attachment" @default.
• W2162234852 cites W1571633255 @default.
• W2162234852 cites W1594377573 @default.
• W2162234852 cites W19645973 @default.
• W2162234852 cites W1976819318 @default.
• W2162234852 cites W1979848820 @default.
• W2162234852 cites W1980199346 @default.
• W2162234852 cites W1980211142 @default.
• W2162234852 cites W1989734247 @default.
• W2162234852 cites W1996520089 @default.
• W2162234852 cites W1998095832 @default.
• W2162234852 cites W2002787964 @default.
• W2162234852 cites W2005653120 @default.
• W2162234852 cites W2011227910 @default.
• W2162234852 cites W2020354602 @default.
• W2162234852 cites W2024333376 @default.
• W2162234852 cites W2026873843 @default.
• W2162234852 cites W2028035221 @default.
• W2162234852 cites W2032152872 @default.
• W2162234852 cites W2034045954 @default.
• W2162234852 cites W2042785780 @default.
• W2162234852 cites W2046206115 @default.
• W2162234852 cites W2048028722 @default.
• W2162234852 cites W2052098523 @default.
• W2162234852 cites W2068118045 @default.
• W2162234852 cites W2069661192 @default.
• W2162234852 cites W2070300719 @default.
• W2162234852 cites W2073677920 @default.
• W2162234852 cites W2079002717 @default.
• W2162234852 cites W2080936059 @default.
• W2162234852 cites W2082210176 @default.
• W2162234852 cites W2087865186 @default.
• W2162234852 cites W2095805080 @default.
• W2162234852 cites W2100496625 @default.
• W2162234852 cites W2101299200 @default.
• W2162234852 cites W2106503480 @default.
• W2162234852 cites W2120468912 @default.
• W2162234852 cites W2125780964 @default.
• W2162234852 cites W2127539199 @default.
• W2162234852 cites W2134440330 @default.
• W2162234852 cites W2140201853 @default.
• W2162234852 cites W2144421595 @default.
• W2162234852 cites W2144440398 @default.
• W2162234852 cites W2149974088 @default.
• W2162234852 cites W2169113006 @default.
• W2162234852 cites W2188199220 @default.
• W2162234852 cites W2325546012 @default.
• W2162234852 cites W4234873380 @default.
• W2162234852 cites W51193635 @default.
• W2162234852 doi "https://doi.org/10.1038/nbt.2316" @default.
• W2162234852 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3796337" @default.
• W2162234852 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22885723" @default.
• W2162234852 hasPublicationYear "2012" @default.
• W2162234852 type Work @default.
• W2162234852 sameAs 2162234852 @default.
• W2162234852 citedByCount "309" @default.
• W2162234852 countsByYear W21622348522012 @default.
• W2162234852 countsByYear W21622348522013 @default.
• W2162234852 countsByYear W21622348522014 @default.
• W2162234852 countsByYear W21622348522015 @default.
• W2162234852 countsByYear W21622348522016 @default.
• W2162234852 countsByYear W21622348522017 @default.
• W2162234852 countsByYear W21622348522018 @default.
• W2162234852 countsByYear W21622348522019 @default.
• W2162234852 countsByYear W21622348522020 @default.
• W2162234852 countsByYear W21622348522021 @default.
• W2162234852 countsByYear W21622348522022 @default.
• W2162234852 countsByYear W21622348522023 @default.
• W2162234852 crossrefType "journal-article" @default.
• W2162234852 hasAuthorship W2162234852A5000799051 @default.
• W2162234852 hasAuthorship W2162234852A5004331670 @default.
• W2162234852 hasAuthorship W2162234852A5004669019 @default.
• W2162234852 hasAuthorship W2162234852A5017730248 @default.
• W2162234852 hasAuthorship W2162234852A5036096394 @default.
• W2162234852 hasAuthorship W2162234852A5037109370 @default.
• W2162234852 hasAuthorship W2162234852A5044265919 @default.
• W2162234852 hasAuthorship W2162234852A5053599027 @default.
• W2162234852 hasAuthorship W2162234852A5055885694 @default.
• W2162234852 hasAuthorship W2162234852A5063871353 @default.
• W2162234852 hasAuthorship W2162234852A5064718443 @default.

• next