Renata Urban-Chmiel, Rafał Stachura, Piotr Hola, Andrzej Puchalski, Marta Dec and Andrzej Wernicki
8. Esfandiari N., Sharma R.K., Saleh R.A., Thomas A.J., Agarwal A.: Utility of the nitroblue tetrazolium reduction test for assessment of reactive oxygen species production by seminal leukocytes and spermatozoa. J Androl 2003, 24, 862-870.
9. Frank G.H., Briggs R.E., Duff G.C., Loan R.W., Purdy C.W.: Effects of vaccination prior to transit and administration of florfenicol at time of arrival in a feedlot on the health of transported calves and detection of Mannheimia haemolytica in nasal secretions. Am J Vet Res 2002, 63, 251
Wojciech Jerzy Pietro, Aneta Woźniak, Katarzyna Pasik, Wojciech Cybulski and Dorota Krasucka
, Rio de Janeiro, 2004. p. 375.
13. Hayes J.M.: Determination of florfenicol in fish feed by liquid chromatography. J AOAC Int 2005, 88, 1777-1783.
14. Hayes J.M., Gilewicz R., Freehauf K., Fetter M.: Assay of florfenicol in swine feed: interlaboratory study. J AOAC Int 2009, 92, 340-347.
15. Huet A.C., Fodey T., Haughey S.A., Weigel S., Elliott C., Delahaut P.: Advances in biosensor-based analysis for antimicrobial residues in foods. Trend Anal Chem 2010, 29, 1281-1294.
16. Luo P.J., Cao X.Y., Wang Z
Basak Hanedan, Akin Kirbas, Emrullah Dorman, Ozkan Timurkan Mehmet, Mehmet Fatih Kandemir and Omer Alkan
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25. Tabbutt S, Leonard M, Godinez RI, Sebert M, Cullen J, Spray TL, Friedman D: Severe influenza B myocarditis and myositis. Pediatr Crit Care Med 2004, 5: 403-6.
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27. Peek SF, Apple FS, Murakami MA, Crump PM, Semrad SD: Cardiac isoenzymes in healthy Holstein calves and
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5. Zhang, Q
Introduction: In the present study, some of the commercial fish farms located in the Black Sea region of Turkey, were screened for bacteria between 2012 and 2014.
Material and Methods: The bacterial agents isolated from fish were identified by classical biochemical tests and the rapid diagnostic tests (API 20 E and API 20 Strep). All strains were further identified by sequencing of the 16S rRNA genes. The strains were also investigated for resistance to different antimicrobials by the disc diffusion method. Antibiotic resistance genes, including tetracycline (B), β-lactam (ampC, blaTEM, blaPSE), florfenicol (floR), erythromycine (ereA, ereB), sulphonamide (sulI, sulII), and trimethoprim (dhfr1) genes, were determined by the PCR method.
Results:Vibrio anguillarum, Vibrio fluvialis, Photobacterium damselae subsp. piscicida, Pseudomonas luteola, Lactococcus garvieae, Streptococcus iniae, Aeromonas hydrophila, and Yersinia ruckeri were isolated from marine and freshwater cultured fish. According to the results of disc diffusion, all isolates were sensitive to florfenicol, trimethoprim+sulfamethoxazole, oxitetracycline, and enrofloxacin, and resistant to lincomycin, penicillin G, and amoxicillin. Also, sulI, sulII, and floR resistance genes were detected in the bacteria.
Conclusion: The results of the study open up the opportunity to perform further investigations which could determine the possible role of ARGs in fish pathogens.
An analytical validation of a screening ELISA for detection of chloramphenicol (CAP) in honey was conducted according to the Commission Decision 2002/657/EC and Guidelines for the Validation of Screening Methods for Residues of Veterinary Medicines. The analyte was extracted from honey with a water and ethyl acetate mixture, and CAP concentrations were measured photometrically at 450 nm. The recovery rate of the analyte from spiked samples was 79%. The cut-off level of CAP in honey as the minimum recovery (0.17 units) was established. Detection capability (CCβ) was fixed at 0.25 μg kg−1. No relevant interferences between matrix effects and structurally related substances including florfenicol and thiamphenicol were observed. The ELISA method should be useful for determination of CAP residues in honey monitoring.
A current profile of antimicrobial resistance and plasmid of 29 Lactococcus garvieae and one Lactococcus lactis strains isolated from rainbow trouts (Oncorhynchus mykiss) from farms throughout Turkey were investigated. All isolates were sensitive to penicillin G (90%), ampicillin (86.7%), florfenicol (83.3%), amoxicillin (80.1%), and tetracycline (73.4%), and resistant to trimethoprim+sulfamethoxazole (86.6%) and gentamycin (46.6%) by disc diffusion method. Twenty-eight (93%) isolates had two to seven antibiotic resistance genes (ARGs) determined by PCR. The most prevalent ARGs were tetracycline (tetB), erythromycin (ereB), and β-lactam (blaTEM). Bacterial strains were also screened for plasmid DNA by agarose gel electrophoresis and two strains harboured plasmids, with sizes ranging from 3 to 9 kb.
Tomasz Śniegocki, Małgorzata Gbylik-Sikorska and Andrzej Posyniak
chloramphenicol and florfenicol in liquid milk, milk powder, and bovine muscles by LC-MS/MS. Food Addit Contam A 2012, 29, 559-570.
9. Rocha Siqueira S.R., Luiz Donato J., de Nucci G., Reyes, F.G.R.: A high-throughput method for determining chloramphenicol residues in poultry, egg, shrimp, fish, swine, and bovine using LC-ESI-MS/MS. J Sep Sci 2009, 32, 4012-4019.
10. Rønning H.T., Einarsen K., Asp T.N.: Determination of chloramphenicol residues in meat, seafood, egg, honey, milk, plasma, and urine with liquid chromatography-tandem mass
Renata Klebaniuk, Ewa Tomaszewska, Piotr Dobrowolski, Małgorzata Kwiecień, Artur Burmańczuk, Dmytro Yanovych, Zvenyslava Zasadna, Sylwia Szymańczyk, Natalia Burmańczuk and Siemowit Muszyński
garlic (Allium sativum) and chloramphenicol on growth performance, physiological parameters and survival of Nile tilapia (Oreochromis niloticus). J. Venom. Anim. Toxins. incl. Trop. Dis., 12: 172-201.
Shea K.M. (2003). Antibiotic resistance: what is the impact of agricultural uses of antibiotics on children’s health? Pediatrics, 112: 253-258.
Shen J., Xia X., Jiang H., Li C., Li J., Li X., Ding S. (2009). Determination of chloramphenicol, thiamphenicol, florfenicol, and florfenicol amine in poultry and porcine muscle and liver by gas