Rapid and simple determination of low level fipronil and amitraz in egg samples using the Bruker EVOQ™ LC-TQ Elite MS/MS system
Applications | 2018 | BrukerInstrumentation
This study addresses the critical need for rapid, sensitive, and reliable detection of fipronil and amitraz residues in eggs. Following high-profile food safety alerts in 2017, regulatory limits in the EU (0.005 mg/kg for fipronil and 0.01 mg/kg for amitraz) demand analytical methods capable of quantifying trace levels in complex biological matrices. Ensuring consumer safety and compliance with ISO 17025 and SANTE guidelines requires streamlined workflows with robust performance.
The primary aim was to develop and validate a fast liquid–liquid extraction (LLE) method coupled to Bruker EVOQ LC-TQ Elite MS/MS for quantitation of fipronil, its sulfone metabolite, amitraz, and an amitraz metabolite (DMPF) in egg samples at low ppb levels. Key goals included simplicity of sample preparation, unattended analysis, and meeting method reporting limits (MRL) of 5 µg/kg.
Sample preparation involved:
The method employed:
Validation demonstrated excellent linearity (R² > 0.99, RSD < 15%) across 5–100 ppb. Repeatability at 5 and 10 ppb showed RSDs of 2–7%, and recoveries ranged 80–102%. Signal-to-noise ratios at 5 µg/kg indicated sub-ppb detection limits. Full compliance with ISO 17025 and SANTE quality criteria was achieved for precision, accuracy, and sensitivity.
Key advantages of the method include:
Advances may include further miniaturization of sample prep, expansion to additional pesticide classes, and integration with automated data-processing platforms. Coupling this workflow with high-resolution MS or ambient ionization techniques could broaden screening capabilities for emerging contaminants.
An ultra-sensitive, fast, and robust LC-MS/MS method was established for fipronil and amitraz residues in eggs. Simple LLE and automated analysis meet regulatory requirements and support reliable food safety monitoring.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesFood & Agriculture
ManufacturerBruker
Summary
Significance of the Topic
This study addresses the critical need for rapid, sensitive, and reliable detection of fipronil and amitraz residues in eggs. Following high-profile food safety alerts in 2017, regulatory limits in the EU (0.005 mg/kg for fipronil and 0.01 mg/kg for amitraz) demand analytical methods capable of quantifying trace levels in complex biological matrices. Ensuring consumer safety and compliance with ISO 17025 and SANTE guidelines requires streamlined workflows with robust performance.
Objectives and Study Overview
The primary aim was to develop and validate a fast liquid–liquid extraction (LLE) method coupled to Bruker EVOQ LC-TQ Elite MS/MS for quantitation of fipronil, its sulfone metabolite, amitraz, and an amitraz metabolite (DMPF) in egg samples at low ppb levels. Key goals included simplicity of sample preparation, unattended analysis, and meeting method reporting limits (MRL) of 5 µg/kg.
Methodology and Instrumentation
Sample preparation involved:
- Weighing 2 g homogenized egg into a 20 mL tube
- Adding 2 mL acetonitrile, shaking 30 s, centrifuging at 4000 rpm
- Filtering 1 mL supernatant through 0.22 µm nylon
- Spiking with triphenylphosphate as internal standard
Instrumentation Used
The method employed:
- Bruker EVOQ LC-TQ Elite MS/MS with heated ESI probe
- Bruker Elute UHPLC, Intensity Solo C18 column
- Mobile phases: water and ACN each with 0.05% formic acid, 2 mM ammonium formate
- Gradient elution over 14 min, flow at 400 µL/min, injection 2 µL
- Data acquisition via Bruker MS Workstation and TASQ software
Main Results and Discussion
Validation demonstrated excellent linearity (R² > 0.99, RSD < 15%) across 5–100 ppb. Repeatability at 5 and 10 ppb showed RSDs of 2–7%, and recoveries ranged 80–102%. Signal-to-noise ratios at 5 µg/kg indicated sub-ppb detection limits. Full compliance with ISO 17025 and SANTE quality criteria was achieved for precision, accuracy, and sensitivity.
Benefits and Practical Applications
Key advantages of the method include:
- Minimal sample handling and rapid extraction
- Unattended, high-throughput analysis
- Sub-ppb detection capability for stringent residue monitoring
- Compatibility with routine food quality control and regulatory labs
Future Trends and Applications
Advances may include further miniaturization of sample prep, expansion to additional pesticide classes, and integration with automated data-processing platforms. Coupling this workflow with high-resolution MS or ambient ionization techniques could broaden screening capabilities for emerging contaminants.
Conclusion
An ultra-sensitive, fast, and robust LC-MS/MS method was established for fipronil and amitraz residues in eggs. Simple LLE and automated analysis meet regulatory requirements and support reliable food safety monitoring.
References
- European Commission, SANTE/11945/2015
- BBC News, 2017, "Fipronil in eggs"
- NVWA, Dutch Food Safety Authority report
- EURL Pesticides Data Pool
- EU Pesticides Database
- Commission Regulation (EU) No 1127/2014
- Commission Regulation (EU) No 623/2017
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Analysis of vitamin D in cheese by APCI LC-MS/MS using the Bruker EVOQ™ LC-TQ Elite mass spectrometry system
2018|Bruker|Applications
Analysis of vitamin D in cheese by APCI LC-MS/MS using the Bruker EVOQ™ LC-TQ Elite mass spectrometry system Abstract A rapid, simple and robust method has been developed to determine vitamin D levels in cheese using the Bruker EVOQ™ LC-TQ…
Key words
vitamin, vitamincheese, cheeseevoq, evoqbruker, brukerelite, elitereplicate, replicateliposoluble, liposolubleintake, intakecottage, cottagecholecalciferol, cholecalciferolergocalciferol, ergocalciferollevels, levelsefsa, efsaexceeding, exceedinghas
Rapid LC-MS/MS Method for the Analysis of Fipronil and Amitraz Insecticides and Associated Metabolites in Egg and Other Poultry Products
2017|SCIEX|Applications
Rapid LC-MS/MS Method for the Analysis of Fipronil and Amitraz Insecticides and Associated Metabolites in Egg and Other Poultry Products Ashley Sage1, Jianru Stahl-Zeng2, Jason Causon1, Mike Whitmore3, Said El Ouadi2, Gerard Franken4, Thomas van Leeuwen4, Niels Martha4, Phil Taylor1…
Key words
fipronil, fipronilamitraz, amitrazpoultry, poultryanalytical, analyticalegg, eggmethod, methodassociated, associatednegative, negativetlr, tlrconditions, conditionsdmpf, dmpfion, ionquechers, quechersprompting, promptingeuropean
Determination of Fipronil and its Metabolite Fipronil Sulfone in Eggs by Liquid Chromatography-Tandem Quadrupole Mass Spectrometry Using a Modified QuEChERS Method
2017|Waters|Applications
[ APPLICATION NOTE ] Determination of Fipronil and its Metabolite Fipronil Sulfone in Eggs by Liquid Chromatography-Tandem Quadrupole Mass Spectrometry Using a Modified QuEChERS Method Renata Jandova, Eimear McCall, Euan Ross, and Simon Hird Waters Corporation, Wilmslow, UK APPLICATION BENEFITS…
Key words
fipronil, fipronilsulfone, sulfoneeggs, eggsmetabolite, metabolitedisque, disqueconc, concmethod, methodxevo, xevohlb, hlbquechers, quechersoasis, oasisprime, primedetermination, determinationuplc, uplcits
Sensitive method for the determination of Fipronil and its metabolite Fipronil Sulfone in egg using QuEChERS sample pretreatment and LC-MS/MS detection[LCMS-8060]
2017|Shimadzu|Applications
Liquid Chromatography Mass Spectrometry No. SCA_210_041 Sensitive method for the determination of Fipronil and its metabolite Fipronil Sulfone in egg using QuEChERS sample pretreatment and LC-MS/MS detection [LCMS-8060] Introduction Fipronil concerns a broad-spectrum insecticide from the group of phenylpyrazoles…
Key words
fipronil, fipronilsulfone, sulfoneeggs, eggsseptm, septmquechers, quechersegg, eggmethod, methoddspe, dspearea, areabiphenyltm, biphenyltmcoops, coopsphenylpyrazoles, phenylpyrazolesmetabolite, metaboliteflea, fleapackage
