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Journal Abstract Search

544 related items for PubMed ID: 30702810

  • 1. Swab cloths as a tool for revealing environmental contamination by Q fever in ruminant farms.
    Carrié P, Barry S, Rousset E, de Crémoux R, Sala C, Calavas D, Perrin JB, Bronner A, Gasqui P, Gilot-Fromont E, Becker CAM, Gache K, Jourdain E.
    Transbound Emerg Dis; 2019 May; 66(3):1202-1209. PubMed ID: 30702810
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  • 2. Detection of Coxiella burnetii and risk factors for infection in ruminants in a central county of Iran.
    Nokhodian Z, Ataei B, Khalili M, Feizi A, Moradi A, Yaran M, Hoseini SG.
    Vet Microbiol; 2018 Aug; 222():7-10. PubMed ID: 30080676
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  • 4. Occurrence and risk factors of Coxiella burnetii in domestic ruminants in Lebanon.
    Dabaja MF, Greco G, Villari S, Vesco G, Bayan A, Bazzal BE, Ibrahim E, Gargano V, Sciacca C, Lelli R, Ezzedine M, Mortada H, Tempesta M, Mortada M.
    Comp Immunol Microbiol Infect Dis; 2019 Jun; 64():109-116. PubMed ID: 31174685
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  • 5. Genotyping of Coxiella burnetii from domestic ruminants in northern Spain.
    Astobiza I, Tilburg JJ, Piñero A, Hurtado A, García-Pérez AL, Nabuurs-Franssen MH, Klaassen CH.
    BMC Vet Res; 2012 Dec 10; 8():241. PubMed ID: 23227921
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  • 7. Estimation of the frequency of Q fever in sheep, goat and cattle herds in France: results of a 3-year study of the seroprevalence of Q fever and excretion level of Coxiella burnetii in abortive episodes.
    Gache K, Rousset E, Perrin JB, DE Cremoux R, Hosteing S, Jourdain E, Guatteo R, Nicollet P, Touratier A, Calavas D, Sala C.
    Epidemiol Infect; 2017 Nov 10; 145(15):3131-3142. PubMed ID: 29039279
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  • 9. Coxiella burnetii infections in sheep or goats: an opinionated review.
    Van den Brom R, van Engelen E, Roest HI, van der Hoek W, Vellema P.
    Vet Microbiol; 2015 Dec 14; 181(1-2):119-29. PubMed ID: 26315774
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  • 10. Molecular detection of Coxiella burnetii infection in aborted samples of domestic ruminants in Iran.
    Mohabati Mobarez A, Khalili M, Mostafavi E, Esmaeili S.
    PLoS One; 2021 Dec 14; 16(4):e0250116. PubMed ID: 33852632
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  • 11. Molecular epidemiology of Coxiella burnetii in French livestock reveals the existence of three main genotype clusters and suggests species-specific associations as well as regional stability.
    Joulié A, Sidi-Boumedine K, Bailly X, Gasqui P, Barry S, Jaffrelo L, Poncet C, Abrial D, Yang E, Animal diagnostic laboratories consortium, Leblond A, Rousset E, Jourdain E.
    Infect Genet Evol; 2017 Mar 14; 48():142-149. PubMed ID: 28007602
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  • 13. Diagnosis of Coxiella burnetii-related abortion in Italian domestic ruminants using single-tube nested PCR.
    Parisi A, Fraccalvieri R, Cafiero M, Miccolupo A, Padalino I, Montagna C, Capuano F, Sottili R.
    Vet Microbiol; 2006 Nov 26; 118(1-2):101-6. PubMed ID: 16891064
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  • 15. Detection of Coxiella burnetii by nested PCR in bulk milk samples from dairy bovine, ovine, and caprine herds in Iran.
    Rahimi E, Doosti A, Ameri M, Kabiri E, Sharifian B.
    Zoonoses Public Health; 2010 Dec 26; 57(7-8):e38-41. PubMed ID: 19968851
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  • 16. Surveys on Coxiella burnetii infections in Swedish cattle, sheep, goats and moose.
    Ohlson A, Malmsten J, Frössling J, Bölske G, Aspán A, Dalin AM, Lindberg A.
    Acta Vet Scand; 2014 Jul 09; 56(1):39. PubMed ID: 25007979
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  • 18. Outbreaks of abortions by Coxiella burnetii in small ruminant flocks and a longitudinal serological approach on archived bulk tank milk suggest Q fever emergence in Central Portugal.
    Cruz R, Esteves F, Vasconcelos-Nóbrega C, Santos C, Ferreira AS, Mega C, Coelho AC, Vala H, Mesquita JR.
    Transbound Emerg Dis; 2018 Aug 09; 65(4):972-975. PubMed ID: 29799172
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  • 20. Presence and persistence of Coxiella burnetii in the environments of goat farms associated with a Q fever outbreak.
    Kersh GJ, Fitzpatrick KA, Self JS, Priestley RA, Kelly AJ, Lash RR, Marsden-Haug N, Nett RJ, Bjork A, Massung RF, Anderson AD.
    Appl Environ Microbiol; 2013 Mar 09; 79(5):1697-703. PubMed ID: 23315737
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