A primary target of pyrethroid insecticides are the voltage-sensitive sodium channels (VSSCs). Expression of VSSCs in oocytes from Xenopus laevis is an experimental model used to study the effects of pyrethroids. A common assumption when utilizing this model is that media concentration is an accurate substitute for tissue dose. This assumption may not hold true for lipophilic chemicals. [3H]-deltamethrin (DLT) was used to test the hypothesis that media concentration is a good surrogate for tissue concentration. Accumulation of DLT (0.001-10 microM) in non-transfected oocytes exposed for 20 min was determined using liquid scintillation counting. The time course (1.0-180 min) of tissue accumulation of DLT (approximately 1.0 microM (0.50 ppm) in media) was also determined. Results demonstrate that tissue dose increases as a function of time with media concentration underestimating tissue dose at long incubation times (approximately 2.0-fold at 180 min) and overestimating tissue dose short incubation times (approximately 8.6-fold at 5 min). Tissue dose increases as a function of media concentration, with overestimation of tissue dose ranging from 1.5-fold at 0.0005 ppm to 4.1-fold at 5.0 ppm. These data suggest that media concentration does not accurately predict tissue dose at all times for a broad range of deltamethrin concentrations in X. laevis oocytes.