The effect of cooking on veterinary drug residues in food .8. Benzylpenicillin

被引:16
|
作者
Rose, MD
Bygrave, J
Farrington, WHH
Shearer, G
机构
[1] CSL Food Science Laboratory, Colney, Norwich NR4 7UQ, Norwich Research Park
来源
ANALYST | 1997年 / 122卷 / 10期
关键词
benzylpenicillin; thermal stability; cooking; veterinary drug residues; antibiotic; food;
D O I
10.1039/a702771k
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
The stability of benzylpenicillin to heat and cooking was studied, Stability of this compound in mater (at 100 degrees C and 65 degrees C), 5% ethanol, 5% sodium bicarbonate, pH 5.5 buffer at 100 degrees C and in hot cooking oil at 140 degrees C and 180 degrees C was established, Benzylpenicillin was stable at 65 degrees C but not stable at higher temperatures with half-life times varying between 15 and 60 min in the solutions investigated, This drug was not stable to cooking, losses being proportional to the harshness of the cooking regime, Where fluids were released during the cooking process, sometimes over half of the residue passed from the solid tissue into the cooking medium.
引用
收藏
页码:1095 / 1099
页数:5
相关论文
共 50 条
  • [31] Concentrations of veterinary drug residues in milk from individual farms in Croatia
    Bilandzic, Nina
    Kolanovic, Bozica Solomun
    Varenina, Ivana
    Jurkovic, Zorica
    MLJEKARSTVO, 2011, 61 (03): : 260 - 267
  • [32] Development and validation of a multiclass method for the determination of veterinary drug residues in honey
    Khaled, Omar
    Ryad, Lamia
    Nagi, Mostafa
    Eissa, Fawzy
    INTERNATIONAL JOURNAL OF ENVIRONMENTAL ANALYTICAL CHEMISTRY, 2024,
  • [33] Development, Optimization, and Validation of Methods for Quantification of Veterinary Drug Residues in Complex Food Matrices Using Liquid-Chromatography-A Review
    Manimekalai, M.
    Rawson, Ashish
    Sengar, Animesh Singh
    Kumar, K. Suresh
    FOOD ANALYTICAL METHODS, 2019, 12 (08) : 1823 - 1837
  • [34] Development, Optimization, and Validation of Methods for Quantification of Veterinary Drug Residues in Complex Food Matrices Using Liquid-Chromatography—A Review
    M. Manimekalai
    Ashish Rawson
    Animesh Singh Sengar
    K. Suresh Kumar
    Food Analytical Methods, 2019, 12 : 1823 - 1837
  • [35] Detection and recognition of veterinary drug residues in beef using hyperspectral discrete wavelet transform and deep learning
    Jiang, Rongchang
    Shen, Jingxin
    Li, Xinran
    Gao, Rui
    Zhao, Qinghe
    Su, Zhongbin
    INTERNATIONAL JOURNAL OF AGRICULTURAL AND BIOLOGICAL ENGINEERING, 2022, 15 (01) : 224 - 232
  • [36] Effect of Ordinary Cooking Procedures on Tetracycline Residues in Chicken Meat
    Abou-Raya, Salah H.
    Shalaby, Ali R.
    Salama, Nadia A.
    Emam, Wafaa H.
    Mehaya, Fathy M.
    JOURNAL OF FOOD AND DRUG ANALYSIS, 2013, 21 (01) : 80 - 86
  • [37] Tetracycline residues in tilapia and catfish tissue and the effect of different cooking methods on oxytetracycline and doxycycline residues
    Morshdy, Alaa Eldin M. A.
    Hussein, Mohamed A. M.
    Mohamed, Mohamed Ali Abdrabo
    Hamed, Eslam
    El-Murr, Abd Elhakeem
    Darwish, Wageh Sobhy
    JOURNAL OF CONSUMER PROTECTION AND FOOD SAFETY, 2022, 17 (04) : 387 - 393
  • [38] A Survey of 61 Veterinary Drug Residues in Commercial Liquid Milk Products in China
    Shi, Runjia
    Yu, Zhongna
    Wu, Wei
    Ho, Harvey
    Wang, Jun
    Wang, Yutao
    Han, Rongwei
    JOURNAL OF FOOD PROTECTION, 2020, 83 (07) : 1227 - 1233
  • [39] Simultaneous Screening for Five Veterinary Drug Residues by a Developed Multiplexed Luminex Assay
    Qin, Zhifeng
    Chen, ShuKun
    Lu, TiKang
    Zeng, ShaoLing
    Sun, Jie
    Lv, JianQiang
    Hua, QongYi
    Wu, AiBo
    ANALYTICAL LETTERS, 2009, 42 (02) : 255 - 264
  • [40] EU sampling strategies for the detection of veterinary drug residues in aquaculture species: Are they working?
    Morris, D. J.
    Gray, A. J.
    Kay, J. F.
    Gettinby, G.
    DRUG TESTING AND ANALYSIS, 2012, 4 : 1 - 9
12345