Effect of molecular weight on the dermatopharmacokinetics and systemic disposition of drugs after intracutaneous injection

Abstract

The aim of this study was to investigate the effect of molecular weight on the topical migration and systemic absorption of drugs, sodium salicylate (SA), calcein sodium (CAL) and FITC-dextrans (FD-4, FD-10, FD-20 and FD-40), after intracutaneous ( i.c.) injection. The apparent diffusion coefficients in the skin ( D s) of SA, CAL and FD-4 after i.c. injection were almost the same and slightly less than 1 × 10 −4 cm 2/min. The D s value drastically decreased with molecular weight more than 10 kDa. The plasma concentration–time curve after i.c. injection was predicted by the convolution method. The ratio of AUC (observed/predicted) was approximately unity for SA, CAL and FD-4 although the systemic absorption of only FD-4 was delayed. In contrast, the AUC ratios of FD-10, FD-20 and FD-40 were about 0.5, 0.2 and 0.06, respectively, and obviously decreased with the molecular weight. The elimination of FD-10, FD-20 and FD-40 from the skin was slow and the drugs tended to remain in the muscle. These results indicated the importance of diffusion in the skin and permeability through the blood vessels for local migration and systemic absorption of drugs after penetration into viable skin.