Docetaxel-Loaded Lecithoid Nanoparticles with Enhanced Lung Targeting Efficiency and Reduced Systemic Toxicity: Developed by Solid Dispersion and Effervescent Techniques

Abstract

The application of chemotherapeutics with chemical drugs is always challenged by their high toxicities throughout the body in clinical trials. Here, we reported a smart formulation of docetaxel developed by solid dispersion and effervescent techniques for efficient and safe delivery of chemical drug to lung tissue. To achieve a high delivery to lung with reduced systemic toxicity, docetaxel was loaded into a kind of lecithoid nanoparticles (DTX-LN) which were prepared by a solid dispersion and effervescent method. After intravenous administration of DTX-LN to rabbit, the docetaxel level in lung was approximately 37-fold higher than that of docetaxel injection (DTX-INJ, a commercial injection preparation of DTX/polysorbate 80 micelles) group at 0.5 h and showed the highest tissue distribution among all the organs. Besides, the targeting parameter R_e value of total increased amount of DTX in lung (AUC_0–t) ratio (DTX-LN to DTX-INJ) is about 16.69, indicating a significantly enhanced lung targeting ability of DTX-LN. In subacute toxicity study, DTX-LN displayed a reduced hematotoxicity, especially for the negative impacts on white blood cells, lymphocyte and granulocyte when compared with DTX-INJ during both weekly and 3-weekly schedules administration. In addition, histopathological analysis demonstrated that DTX-LN showed less tissue damages on rabbit heart and kidney compared to DTX-INJ. Hence, this work would provide an insight for improving lung delivery efficacy of drugs with reduced systemic toxicity.

Graphical Abstract