Simultaneous determination of multi-class veterinary drugs in chicken processed foods and muscle using solid-supported liquid extraction clean-up.

We developed a simultaneous determination method for 37 veterinary drugs in two chicken processed foods (deep-fried chicken and non-fried chicken cutlet) and muscle via liquid chromatography-mass spectrometry. The veterinary drugs belong to 7 different classes, including 4 antifolics, 4 benzimidazoles, 5 macrolides, 7 polyethers, 2 quinolones, 7 sulfonamides, and 8 other classes. The samples were extracted with ethyl acetate followed by acetonitrile with salt and buffers extraction. The two-step extraction enabled analyte extraction from highly lipid samples. The clean-up procedure, a solid-supported liquid extraction clean-up using a diatomaceous earth mini-cartridge, eliminated lipid co-extraction. The prepared sample matrix did not have an effect on the 36 analytes. The method was validated in accordance with the requirements of Japanese validation guidelines. Almost all targeted veterinary drugs successfully satisfied the guideline criteria in the three types of food matrices. The method exhibited recoveries of 70-105%, and the precision of repeatability and within-laboratory reproducibility ranged from 1 to 11% and 1 to 15%, respectively. The limits of quantification were estimated to range from 0.2 to 1.0µg/kg. Applying this method to samples commercially available in Tokyo, residues were detected in 3 out of 26 deep-fried chickens, 5 out of 20 non-fried chicken cutlets, and 17 out of 39 chicken muscles.

Simultaneous determination of amantadine, rimantadine, and memantine in processed products, chicken tissues, and eggs by liquid chromatography with tandem mass spectrometry.

A simultaneous determination of amantadine, rimantadine, and memantine in processed products (deep-fried chicken, fried chicken, fried quail egg, and grilled chicken) with liquid chromatography tandem mass spectrometry (LC-MS/MS) was developed. This new method was also applicable for chicken tissue (muscle, liver, and gizzard) and eggs. The chromatographic separation was performed on a Kinetex® XB-C18 core-shell technology column using a mobile phase of acetonitrile and 0.1% formic acid in a 10mmol/L ammonium formate solution, resulting in the complete separation of isomers (rimantadine and memantine) and any other obstructive peaks from the sample matrices. Sample preparation was performed by a modified QuEChERS method using acetonitrile and a 0.1% acetic acid extraction solution and cleaned using an Oasis® MCX cartridge. The sample matrix had no effect on the identification of the compounds. For quantification, an external solvent calibration curve was used. This new method exhibited good accuracy ranging from 79.9% to 91.5%. The relative standard deviation of repeatability (RSDr) ranged from 1.2% to 3.6% and the relative standard deviation of within-laboratory reproducibility (RSDWR) ranged from 1.3% to 6.0%. These standard deviations satisfied the criteria for Japanese validation guidelines. The limit of quantification (LOQ) was 1.0µg/kg for all samples. Analyte residues were not detected in 55 samples using the validated method.

Determination and surveillance of hydrocortisone and progesterone in livestock products by liquid chromatography-tandem mass spectrometry.

A simple analytical method for the determination of hydrocortisone and progesterone in bovine, swine, and chicken muscle and eggs was developed. Hydrocortisone and progesterone were extracted with acetonitrile and subsequently cleaned-up using an Oasis HLB mini-cartridge. The method was validated in accordance with Japanese guidelines and exhibited trueness from 86.6% to 104.3% and precision (relative standard deviations (RSDs) of repeatability and within reproducibility were under 8.7% and 11.7%, respectively). The method was applied to 103 bovine muscle, 137 swine muscle, 69 chicken muscle and 52 egg samples that were commercially available in Tokyo, Japan. The hydrocortisone concentration was 0.9-41.2 µg kg(-1) in all bovine muscle samples, with an average of 7.7 µg kg(-1) and a median of 6.2 µg kg(-1). The progesterone concentration in 50 samples exceeded the limit of quantification (LOQ) and reached a maximum of 95.4 µg kg(-1). Hydrocortisone was also detected in all swine muscle samples at concentrations of 2.0-56.0 µg kg(-1). Its average and median concentrations amounted to 13.1 and 11.3 µg kg(-1), respectively. Twenty-three samples contained progesterone levels surpassing the LOQ, with a maximum concentration of 107.0 µg kg(-1). No chicken muscle samples contained any of the analytes. The progesterone concentration was 15.5-200.0 µg kg(-1) in all egg samples, with an average of 95.4 µg kg(-1) and a median of 90.5 µg kg(-1).

[Determination of Amantadine in Poultry Tissues and Egg by LC-MS/MS].

An accurate and selective analytical method for amantadine, which is used as antiviral drug to treat influenza A virus infection, was developed using LC-MS/MS. Residual amantadine was extracted from 4 kinds of food sample (poultry muscle, liver, gizzard and egg) with acetonitrile-pH 3.0 McIlvaine buffer (7 : 3), then cleaned up with an Oasis® MCX mini-cartridge. An external standard calibration curve was used for quantification, after sample purification by the combination of a reverse-phase strong cation exchange mixed mode cartridge for cleanup and a HILIC column for HPLC. The method was validated by performing recovery tests in accordance with Japanese guidelines for the validation of analytical methods for residual agricultural chemicals in food. Recovery ranged from 79.3% to 91.7%, RSDs of repeatability were under 3.3%, and RSDs of within-laboratory reproducibility were under 8.4%. This new method was applied to samples of poultry and egg purehased in Tokyo, but residual amantadine was not detected at all.

Determination and surveillance of nine acaricides and one metabolite in honey by liquid chromatography-tandem mass spectrometry.

A simple and accurate analytical method for the determination of acaricides in honey was developed and validated in accordance with Japanese validation guidelines. Analytes - amitraz, N-2,4-dimethylphenyl-N-methylformamidine (DMPF), etoxazole, fenpyroximate, fipronil, hexythiazox, propargite, pyridaben and spirodiclofen - were extracted with ethyl acetate under basic conditions and subsequently cleaned up using an InertSep(®) MA-1 polymer-based anion-exchange column. The method was validated by fortified recovery tests at three different concentrations (1, 5 and 10 µg kg(-1)) performed with three samples daily on five different days. The method exhibited recoveries of 77-116% and precision (relative standard deviations - RSDs) of repeatability and within-laboratory reproducibility ranged from 2% to 22% and from 3% to 23%, respectively. The sample solution was successfully cleaned up to enable quantification using external solvent calibration curves. The limits of quantification (LOQs) were estimated to be 1 µg kg(-1) for all analytes. The method was applied to honey samples commercially available in Tokyo, Japan. Analysis of 250 honey samples indicated that amitraz was present in 127 samples, and that its residual concentration was less than 20 µg kg(-1). Propargite was detected in 23 samples at concentrations less than 1 µg kg(-1).

Multi-residue Determination of Polar Veterinary Drugs in Livestock and Fishery Products by Liquid Chromatography/Tandem Mass Spectrometry.

Residues of 37 polar veterinary drugs belonging to six families (quinolones, tetracyclines, macrolides, lincosamides, sulfonamides, and others) in livestock and fishery products were determined using a validated LC-MS/MS method. There were two key points in sample preparation. First, extraction was performed with two solutions of different polarity. Highly polar compounds were initially extracted with Na2EDTA-McIlvaine's buffer (pH 7.0). Medium polar compounds were then extracted from the same samples with acetonitrile containing 0.1% formic acid. Secondly, cleanup was performed using a single SPE polymer cartridge. The first extracted solution was applied to the cartridge. Highly polar compounds were retained on the cartridge. Then, the second extracted solution was applied to the same cartridge. Both highly and medium polar compounds were eluted from the cartridge. This method satisfied the guideline criteria for 37 out of 37 drugs in swine muscle, chicken muscle, bovine muscle, prawn, salmon trout, red sea bream, milk, and honey; 35 out of 37 in egg; and 34 out of 37 in flounder. The LOQ ranged from 0.1 to 5 µg/kg. Residues were detected in 24 out of 110 samples and analyzed using the validated method.