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Food Additives & Contaminants Volume 19, 2002 - Issue 4
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Original Articles

Analysis and monitoring of chloramphenicol residues in food of animal origin in Slovenia from 1991 to 2000

V. Cerkvenik
Pages 357-367 | Published online: 10 Nov 2010

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Felix E. Mbodi, P. Nguku, E. Okolocha & J. Kabir. (2014) Determination of chloramphenicol residues in commercial chicken eggs in the Federal Capital Territory, Abuja, Nigeria. Food Additives & Contaminants: Part A 31:11, pages 1834-1839.
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Imran Ali, HassanY. Aboul-Enein, V. K. Gupta, Prashant Singh & Uma Negi. (2009) Analyses of Chloramphenicol in Biological Samples by HPLC. Analytical Letters 42:10, pages 1368-1381.
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Articles from other publishers (20)

Mailo Virto, Gorka Santamarina-García, Gustavo Amores & Igor Hernández. (2022) Antibiotics in Dairy Production: Where Is the Problem?. Dairy 3:3, pages 541-564.
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Vanessa Mendonça Soares, Juliano Gonçalves Pereira, Fabiano Barreto, Louise Jank, Renata Batista Rau, Cristina Belíssimo Dias Ribeiro, Tamara dos Santos Castilhos, Caroline Andrade Tomaszewski, Daniel Rodrigo Hillesheim, Rafael Gianella Mondadori, Leonardo Ereno Tadielo, Emanoelli Aparecida Rodrigues dos Santos, Aryele Nunes da Cruz Encide Sampaio, Camila Koutsodontis Cerqueira-Cézar, Eduarda Hallal Duval & Wladimir Padilha da Silva. (2022) Residues of Veterinary Drugs in Animal Products Commercialized in the Border Region of Brazil, Argentina, and Uruguay. Journal of Food Protection 85:6, pages 980-986.
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Fritz Michael Treiber & Heide Beranek-Knauer. (2021) Antimicrobial Residues in Food from Animal Origin—A Review of the Literature Focusing on Products Collected in Stores and Markets Worldwide. Antibiotics 10:5, pages 534.
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Umamaheswari Rajaji, Shaktivel Manavalan, Shen-Ming Chen, Mani Govindasamy, Tse-Wei Chen & T. Maiyalagan. (2019) Microwave-assisted synthesis of europium(III) oxide decorated reduced graphene oxide nanocomposite for detection of chloramphenicol in food samples. Composites Part B: Engineering 161, pages 29-36.
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Seonghee Ahn, Bomi Kim, Song-Yee Baek, Yosi Aristiawan, Jeongkwon Kim & Byungjoo Kim. (2017) Exact Matrix-matching Calibration by Standard Addition-Isotope Dilution-Liquid Chromatography/Mass Spectrometry for the Accurate Determination of Chloramphenicol in Infant Formula. Bulletin of the Korean Chemical Society 38:8, pages 904-910.
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Letícia R. Guidi, Patrícia A.S. Tette, Christian Fernandes, Luiza H.M. Silva & Maria Beatriz A. Gloria. (2017) Advances on the chromatographic determination of amphenicols in food. Talanta 162, pages 324-338.
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Wenjing Zheng, Fei Yan & Bin Su. (2016) Electrochemical determination of chloramphenicol in milk and honey using vertically ordered silica mesochannels and surfactant micelles as the extraction and anti-fouling element. Journal of Electroanalytical Chemistry 781, pages 383-388.
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Jing Chen, Shaolong Feng, Fang Gao, Edward Grant, Jie Xu, Shuo Wang, Qian Huang & Xiaonan Lu. (2015) Fabrication of SERS-Active Substrates using Silver Nanofilm-Coated Porous Anodic Aluminum Oxide for Detection of Antibiotics. Journal of Food Science 80:4, pages N834-N840.
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Yafeng Zhuang, Li Cai & Guiping Cao. (2014) Determination of Chloramphenicol by Voltammetric Method. Journal of The Electrochemical Society 161:3, pages H129-H132.
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Yanbin Lu, Qing Shen, Zhiyuan Dai & Hong Zhang. (2010) Multi-walled carbon nanotubes as solid-phase extraction adsorbent for the ultra-fast determination of chloramphenicol in egg, honey, and milk by fused-core C18-based high-performance liquid chromatography–tandem mass spectrometry. Analytical and Bioanalytical Chemistry 398:4, pages 1819-1826.
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Silvia Regina Rocha Siqueira, José Luiz Donato, Gilberto de Nucci & Felix Guillermo Reyes Reyes. (2009) A high-throughput method for determining chloramphenicol residues in poultry, egg, shrimp, fish, swine and bovine using LC-ESI-MS/MS. Journal of Separation Science 32:23-24, pages 4012-4019.
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H. E. Nonga, C. Simon, E. D. Karimuribo & R. H. Mdegela. (2009) Assessment of Antimicrobial Usage and Residues in Commercial Chicken Eggs from Smallholder Poultry Keepers in Morogoro Municipality, Tanzania. Zoonoses and Public Health.
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Eric Verdon. 2008. Handbook of Muscle Foods Analysis. Handbook of Muscle Foods Analysis 855 947 .
Rayane Mohamed, Janique Richoz-Payot, Eric Gremaud, Pascal Mottier, Ecevit Yilmaz, Jean-Claude Tabet & Philippe A. Guy. (2007) Advantages of Molecularly Imprinted Polymers LC-ESI-MS/MS for the Selective Extraction and Quantification of Chloramphenicol in Milk-Based Matrixes. Comparison with a Classical Sample Preparation. Analytical Chemistry 79:24, pages 9557-9565.
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Vesna Cerkvenik‐Flajs. (2006) Performance characteristics of an analytical procedure for determining chloramphenicol residues in muscle tissue by gas chromatography–electron capture detection. Biomedical Chromatography 20:10, pages 985-992.
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Rie ISHII, Masakazu HORIE, Mitsunori MURAYAMA & Tamio MAITANI. (2006) Analysis of Chloramphenicol in Honey and Royal Jelly by LC/MS/MS. Journal of the Food Hygienic Society of Japan (Shokuhin Eiseigaku Zasshi) 47:2, pages 58-65.
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H.M. Ashwin, S.L. Stead, J.C. Taylor, J.R. Startin, S.F. Richmond, V. Homer, T. Bigwood & M. Sharman. (2005) Development and validation of screening and confirmatory methods for the detection of chloramphenicol and chloramphenicol glucuronide using SPR biosensor and liquid chromatography–tandem mass spectrometry. Analytica Chimica Acta 529:1-2, pages 103-108.
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Andrej Pengov, Vesna Cerkvenik Flajs, Tomaž Zadnik, Janez Marinšek & Milan Pogačnik. (2005) Distribution of chloramphenicol residues in lactating cows following an external application. Analytica Chimica Acta 529:1-2, pages 347-351.
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Philippe A. Guy, Delphine Royer, Pascal Mottier, Eric Gremaud, Adrienne Perisset & Richard H. Stadler. (2004) Quantitative determination of chloramphenicol in milk powders by isotope dilution liquid chromatography coupled to tandem mass spectrometry. Journal of Chromatography A 1054:1-2, pages 365-371.
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Maciej J Bogusz, Huda Hassan, Eid Al-Enazi, Zuhour Ibrahim & Mohammed Al-Tufail. (2004) Rapid determination of chloramphenicol and its glucuronide in food products by liquid chromatography–electrospray negative ionization tandem mass spectrometry. Journal of Chromatography B 807:2, pages 343-356.
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