Literature DB >> 29506196

The Role of Mobile Genetic Elements in the Spread of Antimicrobial-Resistant Escherichia coli From Chickens to Humans in Small-Scale Production Poultry Operations in Rural Ecuador.

Kara A Moser1, Lixin Zhang2,3, Ian Spicknall1, Nikolay P Braykov4, Karen Levy4, Carl F Marrs1, Betsy Foxman1, Gabriel Trueba5, William Cevallos6, Jason Goldstick7,8, James Trostle9, Joseph N S Eisenberg1.   

Abstract

Small-scale production poultry operations are increasingly common worldwide. To investigate how these operations influence antimicrobial resistance and mobile genetic elements (MGEs), Escherichia coli isolates were sampled from small-scale production birds (raised in confined spaces with antibiotics in feed), household birds (no movement constraints; fed on scraps), and humans associated with these birds in rural Ecuador (2010-2012). Isolates were screened for genes associated with MGEs as well as phenotypic resistance to 12 antibiotics. Isolates from small-scale production birds had significantly elevated odds of resistance to 7 antibiotics and presence of MGE genes compared with household birds (adjusted odds ratio (OR) range = 2.2-87.9). Isolates from humans associated with small-scale production birds had elevated odds of carrying an integron (adjusted OR = 2.0; 95% confidence interval (CI): 1.06, 3.83) compared with humans associated with household birds, as well as resistance to sulfisoxazole (adjusted OR = 1.9; 95% CI: 1.01, 3.60) and trimethoprim/sulfamethoxazole (adjusted OR = 2.1; 95% CI: 1.13, 3.95). Stratifying by the presence of MGEs revealed antibiotic groups that are explained by biological links to MGEs; in particular, resistance to sulfisoxazole, trimethoprim/sulfamethoxazole, or tetracycline was highest among birds and humans when MGE exposures were present. Small-scale production poultry operations might select for isolates carrying MGEs, contributing to elevated levels of resistance in this setting.

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Year:  2018        PMID: 29506196      PMCID: PMC5860545          DOI: 10.1093/aje/kwx286

Source DB:  PubMed          Journal:  Am J Epidemiol        ISSN: 0002-9262            Impact factor:   4.897


  31 in total

1.  Poultry, politics, and antibiotic resistance.

Authors:  Paul Webster
Journal:  Lancet       Date:  2009-09-05       Impact factor: 79.321

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Authors:  S Kariuki; C F Gilks; J Kimari; J Muyodi; P Waiyaki; C A Hart
Journal:  Ann Trop Med Parasitol       Date:  1997-01

3.  Heterogeneity of tetracycline resistance determinants.

Authors:  B Mendez; C Tachibana; S B Levy
Journal:  Plasmid       Date:  1980-03       Impact factor: 3.466

4.  Population-based study of deletions in five different genomic regions of Mycobacterium tuberculosis and possible clinical relevance of the deletions.

Authors:  Y Kong; M D Cave; L Zhang; B Foxman; C F Marrs; J H Bates; Z H Yang
Journal:  J Clin Microbiol       Date:  2006-09-06       Impact factor: 5.948

5.  Effect of conventional and organic production practices on the prevalence and antimicrobial resistance of Campylobacter spp. in poultry.

Authors:  Taradon Luangtongkum; Teresa Y Morishita; Aaron J Ison; Shouxiong Huang; Patrick F McDermott; Qijing Zhang
Journal:  Appl Environ Microbiol       Date:  2006-05       Impact factor: 4.792

6.  Antibiotic resistance of faecal Escherichia coli in poultry, poultry farmers and poultry slaughterers.

Authors:  A E van den Bogaard; N London; C Driessen; E E Stobberingh
Journal:  J Antimicrob Chemother       Date:  2001-06       Impact factor: 5.790

7.  Overadjustment bias and unnecessary adjustment in epidemiologic studies.

Authors:  Enrique F Schisterman; Stephen R Cole; Robert W Platt
Journal:  Epidemiology       Date:  2009-07       Impact factor: 4.822

8.  Mortality and hospital stay associated with resistant Staphylococcus aureus and Escherichia coli bacteremia: estimating the burden of antibiotic resistance in Europe.

Authors:  Marlieke E A de Kraker; Peter G Davey; Hajo Grundmann
Journal:  PLoS Med       Date:  2011-10-11       Impact factor: 11.069

9.  In-roads to the spread of antibiotic resistance: regional patterns of microbial transmission in northern coastal Ecuador.

Authors:  Joseph N S Eisenberg; Jason Goldstick; William Cevallos; Gabriel Trueba; Karen Levy; James Scott; Bethany Percha; Rosana Segovia; Karina Ponce; Alan Hubbard; Carl Marrs; Betsy Foxman; David L Smith; James Trostle
Journal:  J R Soc Interface       Date:  2011-09-28       Impact factor: 4.118

10.  The potential role of concentrated animal feeding operations in infectious disease epidemics and antibiotic resistance.

Authors:  Mary J Gilchrist; Christina Greko; David B Wallinga; George W Beran; David G Riley; Peter S Thorne
Journal:  Environ Health Perspect       Date:  2006-11-14       Impact factor: 9.031
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  14 in total

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Authors:  Odion O Ikhimiukor; Erkison Ewomazino Odih; Pilar Donado-Godoy; Iruka N Okeke
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2.  Transmission routes of antibiotic resistant bacteria: a systematic review.

Authors:  Noortje G Godijk; Martin C J Bootsma; Marc J M Bonten
Journal:  BMC Infect Dis       Date:  2022-05-20       Impact factor: 3.667

3.  High Prevalence of Extended-Spectrum Beta-Lactamase CTX-M-Producing Escherichia coli in Small-Scale Poultry Farming in Rural Ecuador.

Authors:  Hayden D Hedman; Joseph N S Eisenberg; Karla A Vasco; Christopher N Blair; Gabriel Trueba; Veronica J Berrocal; Lixin Zhang
Journal:  Am J Trop Med Hyg       Date:  2019-02       Impact factor: 2.345

4.  High incidence of multidrug resistance and class 1 and 2 integrons in Escherichia coli isolated from broiler chickens in South of Iran.

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5.  Small-Scale Food Animal Production and Antimicrobial Resistance: Mountain, Molehill, or Something in-between?

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Journal:  Environ Health Perspect       Date:  2017-10-16       Impact factor: 9.031

Review 6.  Factors Obscuring the Role of E. coli from Domestic Animals in the Global Antimicrobial Resistance Crisis: An Evidence-Based Review.

Authors:  Fernanda Loayza; Jay P Graham; Gabriel Trueba
Journal:  Int J Environ Res Public Health       Date:  2020-04-28       Impact factor: 3.390

Review 7.  A Review of Antimicrobial Resistance in Poultry Farming within Low-Resource Settings.

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Journal:  Animals (Basel)       Date:  2020-07-24       Impact factor: 2.752

8.  Characterization of cefotaxime resistant Escherichia coli isolated from broiler farms in Ecuador.

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Journal:  PLoS One       Date:  2019-04-05       Impact factor: 3.240

9.  Impacts of small-scale chicken farming activity on antimicrobial-resistant Escherichia coli carriage in backyard chickens and children in rural Ecuador.

Authors:  H D Hedman; J N S Eisenberg; G Trueba; D L Vinueza Rivera; R A Zurita Herrera; J Villacis Barrazueta; G I Gavilanes Rodriguez; E Krawczyk; V J Berrocal; L Zhang
Journal:  One Health       Date:  2019-11-07

10.  Antimicrobial resistance in fecal Escherichia coli and Salmonella enterica isolates: a two-year prospective study of small poultry flocks in Ontario, Canada.

Authors:  Csaba Varga; Michele T Guerin; Marina L Brash; Durda Slavic; Patrick Boerlin; Leonardo Susta
Journal:  BMC Vet Res       Date:  2019-12-21       Impact factor: 2.741
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