Heidi S. Rupp

Confirmation of avermectin residues in food matrices with negative-ion atmospheric pressure chemical ionization liquid chromatography/mass spectrometry

A multi-residue LC/MS method has been developed to confirm avermectin drug residues in several food matrices. Ivermectin (IVR), doramectin (DOR), eprinomectin (EPR) and moxidectin (MOX) are confirmed using atmospheric pressure chemical ionization (APCI) with negative ion detection and selected ion monitoring of three to four ions for each compound. The drug residues are extracted from tissue or milk using previously published procedures. IVR and DOR are confirmed at 20 ppb levels in fortified salmon muscle; IVR is also confirmed in tissue from salmon dosed with the drug. Residues of DOR, IVR, and EPR are confirmed in fortified milk at the 20 ppb level and in fortified beef liver at 40 ppb. Residues of MOX can also be confirmed in these matrices, but at slightly higher levels (40-80 ppb).

Hplc detection of patulin in apple juice with GC/MS confirmation of patulin identity.

The official patulin LC procedure was further examined (AOAC 995.10). Juice or juice concentrate was extracted with ethyl acetate and cleaned up with sodium carbonate. Patulin in the dried extract was determined by reversed-phase LC with UV detection (280 nm) in 1% THF aqueous solution after evaporation of the ethyl acetate. An end-capped C18 column was required to separate patulin from hydroxymethylfurfural. Patulin was detected in approximately half of the >1000 extracts examined. Only ca 10% of the extracts contained patulin at levels greater than 50 microg/L (50 ppb). Some presumptive findings were confirmed by capillary gas chromatography/mass spectrometry as the trimethyl silyl derivative using electron ionization or as underivatized patulin using negative ion chemical ionization. Trifluoropropylmethyl polysiloxane capillary columns provided superior gas chromatography of underivatized patulin compared to phenyl/methyl polysiloxane and methyl polysiloxane columns.