Quantifying skin permeation of a novel metformin lotion using modified hydrophilic interaction liquid chromatography.

This study aimed to quantify the permeation of metformin (Met) lotion through pig ear skin using high-performance liquid chromatography, specifically hydrophilic interaction liquid chromatography (HILIC), to separate Met from biological contaminants and effectively measure its permeation through skin similar to human skin. A Franz cell permeation assay was used to assess the permeation kinetics of 6% Met lotion through pig ear skin. Samples were collected at various time points and prepared for high-performance liquid chromatography analysis by removing large biological contaminants. The permeated Met was quantified by monitoring its retention time (RT) at 9 min using HILIC, with an acidic, polar mobile phase and a normal-phase column. A distinct Met peak with a RT of approximately 9 min was observed in the 6% Met lotion, which was absent in the permeation samples from the 0% Met lotion. This peak (RT 9 min) was distinct from the 'biological-contaminants' peaks at RT 2-3 min and increased linearly over time, reaching 36.8% of the total applied Met at 24 h. These findings demonstrate that the HILIC method effectively separates Met from biological components in pig ear skin, allowing accurate quantification of Met despite the presence of skin lipids and proteins.