FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000286041> ?p ?o ?g. }

• W2000286041 endingPage "70" @default.
• W2000286041 startingPage "63" @default.
• W2000286041 abstract "This study compares the susceptibility of Enterococcus faecium isolated from pigs and poultry in Denmark, Finland, and Norway to antimicrobial agents used for growth promotion. E. faecium was isolated from 211 broilers and 55 pigs in Denmark in 1997, from Norwegian 55 poultry farms (turkey and broiler farms) and 4 swine farms between 1995 and 1997, and Finnish poultry (52) and swine (43) in 1996 and examined for susceptibility to avilamycin, avoparcin, bacitracin, flavomycin, monensin, salinomycin, spiramycin, tylosin, and virginiamycin. Only a limited number of isolates were categorized as resistant to monensin or salinomycin. In general, an association between the usage of antimicrobial agents in the respective countries and the occurrence of associated resistance was observed. Resistance to avilamycin was frequently observed among isolates from broilers in Denmark, where avilamycin has been used, whereas all isolates from Finland and Norway, where these drugs have not been used, were susceptible. The same phenomenon could be observed for avoparcin, bacitracin, tylosin, and virginiamycin; resistance was frequently observed among isolates from where these antimicrobials have been widely used, but rarely among isolates from where the use has been limited. Also for avoparcin and bacitracin, an association between usage and occurrence of resistance was observed. All isolates categorized as avoparcin resistant contained the vanX gene; isolates from broilers had the T variant in position 8,234 and isolates from pigs the G variant. Three (1%) of the 222 isolates resistant to tylosin contained the ermA gene and 196 (88%) ermB. Sixteen (11%) of the 146 virginiamycin-resistant isolates from broilers and two (7%) of the 27 virginiamycin-resistant isolates from pigs in Denmark contained the satA gene, whereas satA was not observed among any of the virginiamycin-resistant isolates from Finland. A total of 72% of the virginiamycin-resistant E. faecium from broilers in Denmark and all nine virginiamycin-resistant E. faeciuim from Finland contained satG. This gene was also observed among two (7%) of the virginiamycin-resistant isolates from pigs in Denmark. This study indicates that the use of antimicrobial agents for growth promotion in Denmark, Finland, and Norway have selected for resistance to most of these drugs among E. faecium in food animals." @default.
• W2000286041 created "2016-06-24" @default.
• W2000286041 creator A5004457901 @default.
• W2000286041 creator A5039455242 @default.
• W2000286041 creator A5053341758 @default.
• W2000286041 creator A5057616878 @default.
• W2000286041 creator A5077152798 @default.
• W2000286041 date "2000-01-01" @default.
• W2000286041 modified "2023-09-27" @default.
• W2000286041 title "Associations Between the Use of Antimicrobial Agents for Growth Promotion and the Occurrence of Resistance among<i>Enterococcus faecium</i>from Broilers and Pigs in Denmark, Finland, and Norway" @default.
• W2000286041 cites W1540026877 @default.
• W2000286041 cites W1583453305 @default.
• W2000286041 cites W1629441731 @default.
• W2000286041 cites W1897774269 @default.
• W2000286041 cites W1982436513 @default.
• W2000286041 cites W1988907123 @default.
• W2000286041 cites W1995694487 @default.
• W2000286041 cites W2003043567 @default.
• W2000286041 cites W2006756995 @default.
• W2000286041 cites W2008629942 @default.
• W2000286041 cites W2009418790 @default.
• W2000286041 cites W2012311967 @default.
• W2000286041 cites W2015964287 @default.
• W2000286041 cites W2018117064 @default.
• W2000286041 cites W2021155703 @default.
• W2000286041 cites W2027075614 @default.
• W2000286041 cites W2040630478 @default.
• W2000286041 cites W2064407452 @default.
• W2000286041 cites W2077491736 @default.
• W2000286041 cites W2135493947 @default.
• W2000286041 cites W2141981235 @default.
• W2000286041 cites W2340063853 @default.
• W2000286041 cites W4247906862 @default.
• W2000286041 doi "https://doi.org/10.1089/mdr.2000.6.63" @default.
• W2000286041 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/10868809" @default.
• W2000286041 hasPublicationYear "2000" @default.
• W2000286041 type Work @default.
• W2000286041 sameAs 2000286041 @default.
• W2000286041 citedByCount "148" @default.
• W2000286041 countsByYear W20002860412012 @default.
• W2000286041 countsByYear W20002860412013 @default.
• W2000286041 countsByYear W20002860412014 @default.
• W2000286041 countsByYear W20002860412015 @default.
• W2000286041 countsByYear W20002860412016 @default.
• W2000286041 countsByYear W20002860412017 @default.
• W2000286041 countsByYear W20002860412018 @default.
• W2000286041 countsByYear W20002860412019 @default.
• W2000286041 countsByYear W20002860412020 @default.
• W2000286041 countsByYear W20002860412021 @default.
• W2000286041 countsByYear W20002860412022 @default.
• W2000286041 countsByYear W20002860412023 @default.
• W2000286041 crossrefType "journal-article" @default.
• W2000286041 hasAuthorship W2000286041A5004457901 @default.
• W2000286041 hasAuthorship W2000286041A5039455242 @default.
• W2000286041 hasAuthorship W2000286041A5053341758 @default.
• W2000286041 hasAuthorship W2000286041A5057616878 @default.
• W2000286041 hasAuthorship W2000286041A5077152798 @default.
• W2000286041 hasConcept C140793950 @default.
• W2000286041 hasConcept C2777677444 @default.
• W2000286041 hasConcept C2777877089 @default.
• W2000286041 hasConcept C2779427427 @default.
• W2000286041 hasConcept C2779860364 @default.
• W2000286041 hasConcept C2780289900 @default.
• W2000286041 hasConcept C2780514615 @default.
• W2000286041 hasConcept C42972112 @default.
• W2000286041 hasConcept C501593827 @default.
• W2000286041 hasConcept C71924100 @default.
• W2000286041 hasConcept C86803240 @default.
• W2000286041 hasConcept C89423630 @default.
• W2000286041 hasConcept C94665300 @default.
• W2000286041 hasConceptScore W2000286041C140793950 @default.
• W2000286041 hasConceptScore W2000286041C2777677444 @default.
• W2000286041 hasConceptScore W2000286041C2777877089 @default.
• W2000286041 hasConceptScore W2000286041C2779427427 @default.
• W2000286041 hasConceptScore W2000286041C2779860364 @default.
• W2000286041 hasConceptScore W2000286041C2780289900 @default.
• W2000286041 hasConceptScore W2000286041C2780514615 @default.
• W2000286041 hasConceptScore W2000286041C42972112 @default.
• W2000286041 hasConceptScore W2000286041C501593827 @default.
• W2000286041 hasConceptScore W2000286041C71924100 @default.
• W2000286041 hasConceptScore W2000286041C86803240 @default.
• W2000286041 hasConceptScore W2000286041C89423630 @default.
• W2000286041 hasConceptScore W2000286041C94665300 @default.
• W2000286041 hasIssue "1" @default.
• W2000286041 hasLocation W20002860411 @default.
• W2000286041 hasLocation W20002860412 @default.
• W2000286041 hasOpenAccess W2000286041 @default.
• W2000286041 hasPrimaryLocation W20002860411 @default.
• W2000286041 hasRelatedWork W1534937296 @default.
• W2000286041 hasRelatedWork W1753357666 @default.
• W2000286041 hasRelatedWork W1979986784 @default.
• W2000286041 hasRelatedWork W2000286041 @default.
• W2000286041 hasRelatedWork W2004548965 @default.
• W2000286041 hasRelatedWork W2066045259 @default.
• W2000286041 hasRelatedWork W2084901639 @default.
• W2000286041 hasRelatedWork W2115741190 @default.
• W2000286041 hasRelatedWork W2414897448 @default.
• W2000286041 hasRelatedWork W2969859750 @default.

• next