The aim of the study was to design liposomes (Lips) of artemether (ARM), a plant-derived drug for treatment of metastatic tumors, for the intravenous delivery. The ARM-Lips were prepared using ethanol injection method. Based on the optimization of formulation with single-factor experiments, ARM-Lips were spherical with a uniform particle size (187.3 ± 1.83) nm and its EE and DL were (94.49 ± 1.18)% and (10.94 ± 0.10)%, respectively. The in vitro drug release characteristics of ARM-Lips possessed a sustained release characteristic, and their behavior was in accordance with the first-order kinetics equation. In vivo, after intravenous injection to mice, the t1/2β, MRT, and AUC of ARM-Lips were 8.38-, 3.38-, and 3.11-fold those of ARM solution (ARM-Sol), respectively. In the pharmacodynamics studies, the tumor doubling time, growth inhibition rate, and specific growth rate of tumor of ARM-Lips were 1.97 times, 1.54 times, and 0.51 times those of ARM-Sol, respectively, which indicated that the anti-tumor effect of ARM-Lips was significantly stronger than that of ARM-Sol. These encouraging results revealed that ARM-Lips would serve as an efficient carrier for ARM for increasing therapeutic efficacy on tumor.
Keywords: anti-tumor; artemether; liposomes; pharmacodynamics; pharmacokinetics.