Resolution of a disputed albendazole result in the UK Official Control System - time for more guidance?

Albendazole, one of the benzimidazole anthelmintics, is used in ruminants and has maximum residue limits in muscle, fat and other tissue owing to reported teratogenicity. Albendazole is extensively metabolised in domestic animals and humans with rapid conversion to a sulphoxide and subsequently sulphone and amino sulphone metabolites. Sulphoxide metabolites are responsible for the systemic biological activity of benzimidazole drugs. Herein we report a case of disputed results for albendazole in a consignment sampled at import in which the Official Analyst certified against the consignment for excess albendazole. A laboratory acting for the importer reported data below the MRL, including a finding of the parent drug which is not included in the residue definition. The Government Chemist has a statutory duty as a route of technical appeal in the UK Official Food Control system and the case was referred for referee analysis. We report our findings based on a LC-MS/MS method, which confirmed the official findings, did not reveal the presence of the parent drug but identified hot spots of albendazole marker residues in the consignment. We discuss the need for recommendations on official sampling at import and interpretation of results.

Responses of leukocytes to chemokines in whole blood and their antagonism by novel CC-chemokine receptor 3 antagonists.

CC-chemokine receptor 3 (CCR3)-stimulating chemokines are likely to have important in vivo roles in the regulation of eosinophil, basophil, and potentially helper T cell type 2 and mast cell recruitment. We have developed techniques to investigate the actions of eotaxin and other chemokines on multiple leukocyte populations in whole blood, without cell purification steps that might alter leukocyte responsiveness. We have shown that the potency of eotaxin in whole blood is limited by Duffy antigen binding, which may modulate the actions of this chemokine in vivo. We have also investigated the efficacy and potency of a new panel of small molecule antagonists of CCR3 on responses of eosinophils, neutrophils, basophils, and monocytes to chemokines, using whole blood assays of shape change, chemokine receptor internalization, and CD11b upregulation. These small molecule antagonists cause selective and potent inhibition of CCR3 on eosinophils and basophils, are bioavailable in blood, and are prototypic antagonists potentially of benefit in the treatment of human allergic disease. Such whole blood methods may also be employed in the investigation of other small molecule chemokine receptor antagonists.