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ELISA validation and determination of cut-off level for chloramphenicol residues in honey

Veterinary Medicines (Initial Validation and Transfer) 20/1/2010. 4. EMEA Committee for veterinary medicinal products. Chloramphenicol. Summary report, . 5. Eurachem.: The Fitness for Purpose of Analytical Methods. A Laboratory Guide to Method Validation and Related Topics. Eurachem 1998, 6. International Union of Pure and Applied Chemistry.: Harmonized Guidelines for Single-Laboratory Validation of Methods of Analysis. Pure Appl Chem 2002, 74, 835. 7. Forti F., Campana G., Simonella N

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In-House Reference Material of Chloramphenicol in Pig Muscle

., Żmudzki J.: Validation of the gas chromatography-mass spectrometry method for the determination of chloramphenicol residues in milk. Bull Vet Inst Pulawy 2006, 50, 353-357. 7. Śniegocki T., Posyniak A., Żmudzki J.: Determination of chloramphenicol residues in milk by gas and liquid chromatography mass spectrometry methods. Bull Vet Inst Pulawy 2007, 51 , 59-64, 8. Thompson M., Ellison S.L.R., Wood R.: Pure Appl Chem 2006, 78 , 145-196. 9. Walker R., Lumley I.: Pitfalls in terminology and use of reference materials

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Emulsion of Chloramphenicol: an Overwhelming Approach for Ocular Delivery

References 1. Iwalokun BA, Oluwadun A, Akinsinde KA. Bacteriologic and plasmid analysis of etiologic agents of conjunctivitis in Lagos, Nigeria. J Ophthal Infl amm Infect 2011;1:95-103. 2. Flores-Páez LA, Alcántar-Curiel MD, Mendoza CF, et al. Molecular and phenotypic characterization of staphylococcus epidermidis isolates from healthy conjunctiva and a comparative analysis with isolates from ocular infection. PLoS One 2015;10(8):e0135964. 3. Hi-Media. Product information of chloramphenicol. [Cited September

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Limitations when use chloramphenicol-bcyclodextrins complexes in ophtalmic solutions buffered with boric acid/borax system

.I, Ed. Mirton, Timişoara, 2009;331-340. 5. James KC, Leach RH- A borax-chloramphenicol complex in aqueous solution, Journal of Pharmacy and Pharmacology, 1970; 22(8):612-614. 6. Boer Y, Pijnenburg A- HPLC determination of chloramphenicol degradation in eye drops, Pharmaceutisch Weekblad, 1983;5(3):95-101. 7. Abdel Rahman AA, Khidr SH, Ahmed SM, et al- Evaluation of chloramphenicol-b-cyclodextrin inclusion complex, Eur. J. Pharm. Biopharm.1991;37(1):34-37. 8. Ramos AI, Braga TM, Silva P, et al

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Analytical strategy for determination of chloramphenicol in different biological matrices by liquid chromatography - mass spectrometry

References 1. Berendsen B.J., Zuidema T., de Jong J., Stolker L.A., Nielen M.W.: Discrimination of eight chloramphenicol isomers by liquid chromatography tandem mass spectrometry in order to investigate the natural occurrence of chloramphenicol. Anal Chim Acta 2011, 700, 78-85. 2. Commission Decision 2002/657/EC of 12 August 2002 implementing Council Directive 96/23/EC concerning the performance of analytical methods and the interpretation of results. OJ L 221, 17.8.2002, 8-36. 3. Guy P.A., Royer D., Mottier P

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Chloramphenicol-Induced Alterations in the Liver and Small Intestine Epithelium in Pigs

References Abu Eid R., Landini G. (2003). Quantification of the global and local complexity of the epithelialconnective tissue interface of normal, dysplastic, and neoplastic oral mucosae using digital imaging. Pathol. Res. Pract., 199: 475-482. Ahmadizadeh M., Esmailpoor M., Goodarzi Z. (2013). Effect of phenobarbital on chloramphenicol- induced toxicity in rat liver and small intestine. Iran J. Basic Med. Sci., 16: 1282-1285. Berendsen B., Stolker L.,de Jong J., Nielen M., Tserendorj E., Sodnomdar- jaa R

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Elimination of Chloramphenicol in Rainbow Trout Receiving Medicated Feed

References Cannon M, Harford S, Davies J. A comparative study on the inhibitory actions of chloramphenicol, thiamphenicol and some fluorinated derivatives. J Antimicrob Chemother 1990;26:307-17. World Health Organization (WHO). Toxicological evaluation of certain veterinary drug residues in food. WHO Food Additives Series 53. Geneva: WHO; 2004. Anadón A, Bringas P, Martinez-Larrañaga MR, Diaz MJ. Bioavailability, pharmacokinetics and residues of chloramphenicol in the chicken. J Vet

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Amphenicols stability in medicated feed – development and validation of liquid chromatography method

References 1. Andrée S., Jira W., Schwind K.H., Wagner H., Schwägele F.: Chemical safety of meat and meat products. Meat Sci 2010, 86, 38-48. 2. Bilandžić N., Varenina I., Solomun Kolanović B.: Control of chloramphenicol in samples of meat, meat products and fish. Meso 2011, 13, 192-196. 3. Boscher A., Guignard C., Pellet T., Hoffmann L., Bohn T.: Development of a multi-class method for the quantification of veterinary drug residues in feeds by liquid chromatographytandem mass spectrometry. J Chromatogr A 2010

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Virulence factors and mechanisms of antibiotic resistance of haemophilus influenzae

passage. Antimicrob Agents Chemother 2000;44:2118-25. 19. Roberts MC, Soge OO, No DB. Characterization of macrolide resistance genes in Haemophilus infl uenzae isolated from children with cystic fi brosis. J Antimicrob Chemother 2011;66:100-4. 20. Powell M, Livermore DM. Mechanisms of chloramphenicol resistance in Haemophilus infl uenzae in the United Kingdom. J Med Microbiol 1988;27:89-93. 21. De Groot R, Chaffi n DO, Kuehn M, Smith AL. Trimethoprin resistance in Haemophilus infl uenzae is due to altered

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Detection of antibiotic resistance and classical enterotoxin genes in coagulase -negative staphylococci isolated from poultry in Poland

cage-housed and floor-housed poultry operations. Environ Res 2011, 111, 492–498. 10. Kao S.J., You I., Clewell D.B., Donabedian S.M., Zervos M.J., Petrin J., Shaw K.J., Chow J.W.: Detection of the high-level aminoglycoside resistance gene aph(2″)-Ib in Enterococcus faecium . Antimicrob Agents Chemother 2000, 44, 2876–2879. 11. Kehrenberg C., Schwarz S.: Distribution of florfenicol resistance genes fexA and cfr among chloramphenicol-resistant Staphylococcus isolates. Antimicrob Agents Chemother 2006, 50, 1156–1163. 12. Long K.S., Poehlsgaard J

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