Effects of Flavophospholipol on Resistance in Fecal
            <i>Escherichia coli</i>
            and Enterococci of Fattening P

Bogaard, A E van den; Hazen, M.J.; Hoyer, Mark; Oostenbach, P. J. G.; Stobberingh, Ellen E.

doi:10.1128/aac.46.1.110-118.2002

Cited by 40 publications

(27 citation statements)

References 44 publications

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“…These results were supported by data from the experimental flocks which demonstrated that even in controlled settings with clean pens and fresh bedding, there was high prevalence of resistance to antimicrobials not commonly used in broiler chicken husbandry. These data are similar to data in previously published studies (14,19,42). However, we also detected broad distribution of several antimicrobial-resistant E. coli strains on all the farms in our study, including birds raised in our research facilities.…”

Section: Discussionsupporting

confidence: 82%

Impact of Antimicrobial Usage on Antimicrobial Resistance in Commensal Escherichia coli Strains Colonizing Broiler Chickens

Smith

Drum

Dai

et al. 2007

Appl Environ Microbiol

119

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Escherichia coli strains isolated from commercial broilers and an experimental flock of chickens were screened to determine phenotypic expression of antimicrobial resistance and carriage of drug resistance determinants. The goal of this study was to investigate the influence of oxytetracycline, sarafloxacin, and enrofloxacin administration on the distribution of resistance determinants and strain types among intestinal commensal E. coli strains isolated from broiler chickens. We detected a high prevalence of resistance to drugs such as tetracycline (36 to 97%), sulfonamides (50 to 100%), and streptomycin (53 to 100%) in E. coli isolates from treated and untreated flocks. These isolates also had a high prevalence of class 1 integron carriage, and most of them possessed the streptomycin resistance cassette, aadA1. In order to investigate the contribution of E. coli strain distribution to the prevalence of antimicrobial resistance and the resistance determinants, isolates from each flock were DNA fingerprinted by enterobacterial repetitive intergenic consensus sequence (ERIC) PCR. Although very diverse E. coli strain types were detected, four ERIC strain types were present on all of the commercial broiler farms, and two of the strains were also found in the experimental flocks. Each E. coli strain consisted of both susceptible and antimicrobial agent-resistant isolates. In some instances, isolates of the same E. coli strain expressed the same drug resistance patterns although they harbored different tet determinants or streptomycin resistance genes. Therefore, drug resistance patterns could not be explained solely by strain prevalence, indicating that mobile elements contributed significantly to the prevalence of resistance.

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Section: Discussionsupporting

confidence: 82%

Impact of Antimicrobial Usage on Antimicrobial Resistance in Commensal Escherichia coli Strains Colonizing Broiler Chickens

Smith

Drum

Dai

et al. 2007

Appl Environ Microbiol

119

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“…Two in vivo studies, one with pigs receiving a feed containing bambermycin and the other with calves, demonstrated a decrease in the number of resistant E. coli organisms in the intestines (69,219). Similar findings were noted with Salmonella-infected calves and swine (67,199), while a decrease in the number of resistant Salmonella enterica serotype Typhimurium organisms in broilers could not be demonstrated (97).…”

Section: Bambermycinsupporting

confidence: 59%

“…In one study, the number of E. coli organisms in swine feces was decreased while the total numbers of enterococci remained the same. The number of E. faecalis strains, however, was dramatically decreased (219). Bambermycin in the feed did not affect intestinal Salmonella colonization in experimentally infected chickens (97,116).…”

Section: Bambermycinmentioning

confidence: 99%

Antimicrobial Growth Promoters Used in Animal Feed: Effects of Less Well Known Antibiotics on Gram-Positive Bacteria

2003

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There are not many data available on antibiotics used solely in animals and almost exclusively for growth promotion. These products include bambermycin, avilamycin, efrotomycin, and the ionophore antibiotics (monensin, salinomycin, narasin, and lasalocid). Information is also scarce for bacitracin used only marginally in human and veterinary medicine and for streptogramin antibiotics. The mechanisms of action of and resistance mechanisms against these antibiotics are described. Special emphasis is given to the prevalence of resistance among gram-positive bacteria isolated from animals and humans. Since no susceptibility breakpoints are available for most of the antibiotics discussed, an alternative approach to the interpretation of MICs is presented. Also, some pharmacokinetic data and information on the influence of these products on the intestinal flora are presented

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“…The resistance patterns of intestinal bacteria are known to change in response to increased exposure to antibiotics [1,2]. In addition, incompletely absorbed oral antibiotics and antibiotics excreted in the bile lead to changes in the intestinal microbiota and also to disturbances like diarrhoea and fungal infections [3,4].…”

Section: Introductionmentioning

confidence: 99%

Inhibition of ampicillin-induced emergence of resistance in intestinal coliforms by targeted recombinant β-lactamase

Mentula

Harmoinen

Koski³

et al. 2004

International Journal of Antimicrobial Agents

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Effects of Flavophospholipol on Resistance in Fecal Escherichia coli and Enterococci of Fattening P

Cited by 40 publications

References 44 publications

Impact of Antimicrobial Usage on Antimicrobial Resistance in Commensal Escherichia coli Strains Colonizing Broiler Chickens

Impact of Antimicrobial Usage on Antimicrobial Resistance in Commensal Escherichia coli Strains Colonizing Broiler Chickens

Antimicrobial Growth Promoters Used in Animal Feed: Effects of Less Well Known Antibiotics on Gram-Positive Bacteria

Inhibition of ampicillin-induced emergence of resistance in intestinal coliforms by targeted recombinant β-lactamase

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