Abstract
""CHROMATOGRAPHY: TYPES, TECHNIQUES AND METHODS""; ""CHROMATOGRAPHY: TYPES, TECHNIQUES AND METHODS""; ""CONTENTS ""; ""PREFACE ""; ""RECENT ADVANCES IN THE ANALYSIS OF VETERINARY DRUGS AND GROWTH-PROMOTING AGENTS BY CHROMATOGRAPHIC TECHNIQUES""; ""ABSTRACT ""; ""1. INTRODUCTION ""; ""1.1. General Overview ""; ""1.2. Classification of Veterinary Drugs and Growth-Promoting Agents ""; ""1.2.1. Anthelmintics ""; ""1.2.2. Tranquilizers ""; ""1.2.3. Antibiotics ""; ""1) Aminoglycosides ""; ""2) β-Lactams ""; ""3) Macrolides ""; ""4) Tetracyclines (TCs) ""; ""5) Sulphonamides"" ""6) Quinolones """"7) Coccidiostats ""; ""7.1) Nitroimidazoles""; ""7.2) Nitrofurans ""; ""1.2.4. Hormones (GPAs) ""; ""1) Anabolic Steroids ""; ""2) Corticosteroids""; ""3) Thyreostats ""; ""1.2.5. β-agonists (GPAs) ""; ""1.3. Legislation: A Brief Summary ""; ""2. CHROMATOGRAPHIC TECHNIQUES ""; ""2.1. Liquid Chromatograph""; ""2.1.1. Anthelmintics ""; ""Avermectins""; ""Detection: UV, FLD and MS ""; ""Benzimidazoles ""; ""Detection: UV and MS ""; ""2.1.2. Tranquilizers ""; ""Detection: UV, FLD and MS ""; ""2.1.3. Aminoglycosides ""; ""Detection: FLD, CLD and MS""; ""2.1.4. β-lactams "" ""Detection: UV and MS """"2.1.5. Macrolides ""; ""Detection: UV and MS ""; ""2.1.6. Tetracyclines (TC""; ""Detection: UV, FLD, CLD and MS ""; ""2.1.7. Sulphonamides ""; ""Detection: UV, FLD and MS ""; ""2.1.8. Quinolones ""; ""Detection: UV, FLD and M""; ""2.1.9. Coccidiostats ""; ""Nitroimidazoles""; ""Detection: UV and MS ""; ""Nitrofurans ""; ""Detection: UV, DAD and MS""; ""2.1.10. Anabolic Steroid""; ""Detection: MS""; ""2.1.11. Corticosteroids ""; ""Detection: DAD, CLD and MS ""; ""2.1.12. Thyreostats ""; ""Detection: DAD, CLD and MS ""; ""2.1.13. β-agonists"" ""Detection: UV, FLD and MS""""2.2. Gas Chromatography ""; ""2.2.1. Aminoglycosides ""; ""2.2.2. Coccidiostats ""; ""2.2.3. Anabolic Steroids ""; ""Detection: MS""; ""2.2.4. Corticosteroids ""; ""Detection: MS ""; ""2.2.5. Thyreostats""; ""Detection: MS ""; ""2.2.6. β-agonists""; ""Detection: FID and MS""; ""3. APPLICATIONS ""; ""3.1. Anthelmintics ""; ""Avermectins ""; ""Benzimidazoles""; ""3.2. Tranquilizers ""; ""3.3. Aminoglycosides ""; ""3.4. β-lactams ""; ""3.5. Macrolides""; ""3.6. Tetracyclines ""; ""3.7. Sulphonamides ""; ""3.8. Quinolones ""; ""3.9. Coccidiostats"" ""Nitroimidazoles """"Nitrofurans ""; ""3.10. Anabolic Steroids ""; ""3.11. Corticosteroids ""; ""3.12. Thyreostats""; ""3.13. β-agonists ""; ""4. MULTI-RESIDUE/MULTI-CLASS METHODS ""; ""CONCLUSIONS AND FUTURE TRENDS""; ""ACKNOWLEDGMENTS""; ""REFERENCES ""; ""HPLC: THE DOMINANT SEPARATION TECHNIQUE WITH A WIDE RANGE OF APPLICATIONS ""; ""ABSTRACT""; ""1. BIOMEDICAL APPLICATIONS ""; ""2. FOOD SAFETY APPLICATIONS""; ""3. VETERINARY MEDICINE""; ""4. DRUG DEVELOPMENT AND TESTING ""; ""5. ENVIRONMENTAL POLLUTION MONITORING ""; ""6. FORENSIC SCIENCE""
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CITATION STYLE
Samanidou, V. F. (2015). High Performance Liquid Chromatography (HPLC): The Workhorse in the Analytical Laboratory. SOJ Chromatographic Science, 1(1), 01–02. https://doi.org/10.15226/2471-3627/1/1/00105
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