Abstract
The veterinary drugs are broad-spectrum antibacterial antibiotics; it uses to cure the animal disease. Many countries have banned veterinary drug residues like nitrofurans metabolites, chloramphenicol. However, the people were administrated veterinary drugs to animals as illegal to increase the milk production in animals for economic benefit. The results of illegally use of veterinary drugs remain as a residue in animal product like milk and it is very harmful to whom consume it cause cancer and allergic for human being which has entered the concern among milk consumers. To control illegal use of veterinary drugs, the government of India has restricted its use in animals. For the identification and confirmation of veterinary drug residues in animal products, analytical techniques such as liquid chromatography and mass spectrometry are available. These are very sophisticated equipments which are available nowadays and their methodologies for the analytical method validation are described by European commission 2002/657/EC. The use of veterinary drugs is a big challenge to effectively identify and authorization of their use. There are so many analytical techniques are using very effectively and taking very less time to protect the consumers from their adverse effects. These techniques take very less time to identify more groups of compounds such as tetracycline, sulfonamides, anthelmintic, and macrolides in single multi-residue method. These methods having validation parameters include system precision, calibration curve, accuracy, limit of detection, and quantification. Therefore, improvement in the existing technologies and accessibility of new screening methodologies will give opportunities for automation that helps in obtaining the results in very less time and improved sensitivity and specificity which contribute to better safety assurance, standard, and quality of various food products of animal origin.
Highlights
The veterinary drugs are used in very large amounts to cure animal disease as well as inhibit bacterial growth in animals
Different type of chromatographic method is available such as LC using ultraviolet detector (UV), diode array detection (DAD), and fluorescence detection (FLD). Analytical techniques such as Enzyme-Linked immunosorbent assay (ELISA), high-pressure LC (HPLC), and LC-MS/MS are very important in identification, quantification, and confirmation of veterinary drug residues that contribute to a better safety guarantee, standard, and quality of various animal origin food products (Tables-1,2 and 3)
We are systematically described as ELISA, HPLC, and LCMS techniques
Summary
The veterinary drugs are used in very large amounts to cure animal disease as well as inhibit bacterial growth in animals. The analytical method has multiple techniques to identify and quantify the antibiotic residues in different various food matrixes The identification of these drug molecules is based on microbial technique like ELISA. Different type of chromatographic method is available such as LC using ultraviolet detector (UV), diode array detection (DAD), and fluorescence detection (FLD) Analytical techniques such as ELISA, HPLC, and LC-MS/MS are very important in identification, quantification, and confirmation of veterinary drug residues that contribute to a better safety guarantee, standard, and quality of various animal origin food products (Tables-1,2 and 3). The second method confirmation by LC-MS/MS with trace of antibiotics in numerous samples found antibiotics residues suggested a lack of public health control as well in livestock industry [10] It is called as HPLC technique because solvent push through the pump pressurization.
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