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Journal Abstract Search

165 related items for PubMed ID: 28852034

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  • 4. Computional algorithm for lifetime exposure to antimicrobials in pigs using register data-The LEA algorithm.
    Birkegård AC, Andersen VD, Halasa T, Jensen VF, Toft N, Vigre H.
    Prev Vet Med; 2017 Oct 01; 146():173-180. PubMed ID: 28992924
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  • 6. Evaluation of the risk factors for shedding Salmonella with or without antimicrobial resistance in swine using multinomial regression method.
    Farzan A, Friendship RM, Dewey CE, Poppe C, Funk J.
    Zoonoses Public Health; 2010 Nov 01; 57 Suppl 1():85-93. PubMed ID: 21083821
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  • 7. Robustness in quantifying the abundance of antimicrobial resistance genes in pooled faeces samples from batches of slaughter pigs using metagenomics analysis.
    Andersen VD, Jensen MS, Munk P, Vigre H.
    J Glob Antimicrob Resist; 2021 Mar 01; 24():398-402. PubMed ID: 33626417
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  • 9. Predicting effects of changed antimicrobial usage on the abundance of antimicrobial resistance genes in finisher' gut microbiomes.
    Andersen VD, Aarestrup FM, Munk P, Jensen MS, de Knegt LV, Bortolaia V, Knudsen BE, Lukjancenko O, Birkegård AC, Vigre H.
    Prev Vet Med; 2020 Jan 01; 174():104853. PubMed ID: 31783288
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  • 13. Persistence of antimicrobial resistance genes from sows to finisher pigs.
    Birkegård AC, Halasa T, Folkesson A, Clasen J, Græsbøll K, Toft N.
    Prev Vet Med; 2018 Jan 01; 149():10-14. PubMed ID: 29290290
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  • 14. Effect of tetracycline treatment regimens on antibiotic resistance gene selection over time in nursery pigs.
    Græsbøll K, Larsen I, Clasen J, Birkegård AC, Nielsen JP, Christiansen LE, Olsen JE, Angen Ø, Folkesson A.
    BMC Microbiol; 2019 Dec 02; 19(1):269. PubMed ID: 31791243
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  • 15. The association between measurements of antimicrobial use and resistance in the faeces microbiota of finisher batches.
    Andersen VD, DE Knegt LV, Munk P, Jensen MS, Agersø Y, Aarestrup FM, Vigre H.
    Epidemiol Infect; 2017 Oct 02; 145(13):2827-2837. PubMed ID: 28651652
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  • 16. Antimicrobial resistance in commensal Escherichia coli and Enterococcus spp. isolated from pigs subjected to different antimicrobial administration protocols.
    Pissetti C, Kich JD, Allen HK, Navarrete C, de Freitas Costa E, Morés N, Cardoso M.
    Res Vet Sci; 2021 Jul 02; 137():174-185. PubMed ID: 34000648
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  • 17. Horizontal Dissemination of Antimicrobial Resistance Determinants in Multiple Salmonella Serotypes following Isolation from the Commercial Swine Operation Environment after Manure Application.
    Pornsukarom S, Thakur S.
    Appl Environ Microbiol; 2017 Oct 15; 83(20):. PubMed ID: 28802274
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  • 18. Extensive metagenomic analysis of the porcine gut resistome to identify indicators reflecting antimicrobial resistance.
    Zhou Y, Fu H, Yang H, Wu J, Chen Z, Jiang H, Liu M, Liu Q, Huang L, Gao J, Chen C.
    Microbiome; 2022 Mar 04; 10(1):39. PubMed ID: 35246246
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  • 19. Risk factors for the abundance of antimicrobial resistance genes aph(3')-III, erm(B), sul2 and tet(W) in pig and broiler faeces in nine European countries.
    Yang D, Heederik DJJ, Mevius DJ, Scherpenisse P, Luiken REC, Van Gompel L, Skarżyńska M, Wadepohl K, Chauvin C, Van Heijnsbergen E, Wouters IM, Greve GD, Jongerius-Gortemaker BGM, Tersteeg-Zijderveld M, Zając M, Wasyl D, Juraschek K, Fischer J, Wagenaar JA, Smit LAM, Schmitt H, EFFORT consortium.
    J Antimicrob Chemother; 2022 Mar 31; 77(4):969-978. PubMed ID: 35061866
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  • 20. Genomic Characterization of Antimicrobial-Resistant Salmonella enterica in Duck, Chicken, and Pig Farms and Retail Markets in Eastern China.
    Tang B, Elbediwi M, Nambiar RB, Yang H, Lin J, Yue M.
    Microbiol Spectr; 2022 Oct 26; 10(5):e0125722. PubMed ID: 36047803
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