First online SPE-LC-MS assay for antibiotics in milk: Assay ideal for food control and safety

16 Jun 2009
Emily Marquez-Vega
Publishing / Media

A new fully automated, quantitative assay for beta-lactam antibiotics in milk has now been developed using online SPE-LC-MS/MS. A Spark Holland Symbiosis system for SPE-LC in combination with an Applied Biosystems-Sciex 3200 triple-quadrupole tandem mass spectrometer for MS/MS enables measurement of target compounds well below the Maximum Residue Limits set by the European Union.

Ideal for food control and safety, this new developed method offers high sensitivity and accuracy of results, minimum sample pre-treatment, and for the first time uses an automated online SPE offering a high throughput analysis.

Lina Kantiani from the Department of Environmental Chemistry of IDAEA-CSIC in Barcelona, Spain, describes the fully automated assay for beta-lactam antibiotics in milk (Anal. Chem. 2009 81 (11), pp 4285-4295). Using a range of target compounds (6 penicillins and 4 cephalosporins), quantitation in milk ranged from 0.09 ng/mL for ampicillin to 1.44 ng/mL for penicillin G. Manual sample handling is greatly reduced involving only the addition of internal standard and centrifugation. Simultaneous analysis of all compounds takes just 10 minutes resulting in significantly increased throughput. The article concludes: “This analytical method presents an easy and cost-effective procedure for the identification and quantification of selected antibiotic compounds in raw milk samples and is a useful tool for the confirmatory analysis of these compounds in previous positively screened milk samples in routine food analysis.”

Antibiotic residues in food products can result in increased bacterial resistance against antibiotic medicines, carcinogenic and allergic responses in consumers and disturbances in milk culturing processes. Stringent legislation in Western countries requires the control and reduction of antibiotics residues in food and food producing animals in order to protect human health. Currently available test kits for screening for antibiotics in food products can lack specificity producing only semi-quantitative results, which may lead to false positives. Food control labs, therefore, tend to rely more and more on LC-MS/MS based assays for reliable confirmative measurements of samples after a prior screening test. Thorough sample clean-up is required before samples can be processed by LC-MS/MS, and because existing methods use off-line sample preparation methods such as liquid-liquid extraction or solid phase extraction (SPE), such assays are labour intensive and suffer from low throughput.

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