Novel simultaneous determination of alliin and allicin in Allium sp. using digital subtraction HPTLC

•Allicin is easily pre-derivatized to S-allylmercaptocysteine prior HPTLC separation.•Stable S-allylmercaptocysteine and alliin can be simultaneously detected on HPTLC.•Digital subtraction HPTLC allows high accuracy for allicin determination. Allicin is a major thiosulfinate found in garlic and other Allium sp. and it is responsible for their pungent aroma. It is formed during the tissue lysis of garlic, by the initial action of alliinase upon alliin, the major cysteine sulfoxide. Simultaneous detection of these two analytes is usually performed using HPLC. Contrary to the most important phytoconstituents in other samples, allicin is scarcely detected using the simple HPTLC technique, due to challenges caused by its unique structure, despite its simplicity and high needs in the analytical monitoring of the Allium sp. In this work, a cost-effective, simple, sensitive and accurate method was developed for the determination of allicin together with alliin, using HPTLC. Allicin is quickly pre-derivatised with cysteine in excess to the stable S-allylmercaptocysteine that is then simultaneously detected with alliin, using ninhydrin reagent. The method was validated in terms of accuracy (recoveries of 90–120 %), precision (RSD% of 4–12 %), selectivity, robustness, peak purity and limit of detection (LOD = 0.05 μg/band for allicin and LOD = 0.10 μg/band for alliin). The method was successfully applied using real Allium sp. samples and the results were in good agreement with HPLC data.