Effect of perfusion flow rate on the tissue uptake of solutes after dermal application using the rat isolated perfused hindlimb preparation.

Abstract

The rat perfused hindlimb preparation was investigated as a model to study the dermal clearance and tissue distribution of three solutes with differing physicochemical properties ([3H]water, [3H]diazepam, and [14C]lignocaine). The dermal clearance of each solute increased and the depth of tissue preparation decreased with increasing perfusion flow rate. The half-life for solute efflux from tissues into perfusate, and the peak times for amount of solute in tissue were in the order water > lignocaine > diazepam. Topical iontophoresis, which has previously been shown to achieve similar clearances from topical sites to those seen following passive dermal application, resulted in a clearance of lignocaine in the perfused hindlimb comparable with that obtained in the preparation following passive absorption through exposed dermis. The distribution of capillary blood flow in the perfused hindlimb was quantified using 51Cr-labelled 15-microns microspheres, with greater increases in flow found in deeper muscle tissues with increasing perfusion flow rate compared with superficial layers. Microsphere studies in anaesthetized rats also demonstrate slight differences in the distribution of flow within the hindlimb compared with the perfused preparation. We conclude that the rat perfused hindlimb preparation successfully combines many of the advantages of in-vitro and in-vivo methods and has potential for routine use in the study of solute dermal absorption kinetics.