Subcutaneous nanoparticle-based antitubercular chemotherapy in an experimental model.

Poly (DL-lactide-co-glycolide) (PLG) nanoparticles encapsulating three front-line antitubercular drugs, i.e. rifampicin, isoniazid and pyrazinamide, were prepared by the multiple emulsion technique and administered subcutaneously to mice for pharmacokinetic/chemotherapeutic study. A single subcutaneous dose of drug-loaded PLG nanoparticles resulted in sustained therapeutic drug levels in the plasma for 32 days and in the lungs/spleen for 36 days. The mean residence time and absolute bioavailability were increased several-fold as compared with unencapsulated drugs. Further, drug-loaded PLG nanoparticles resulted in undetectable bacterial counts in the lungs and spleen of Mycobacterium tuberculosis-infected mice, thereby demonstrating a better chemotherapeutic efficacy, as compared with daily free drug treatment. Hence, injectable PLG nanoparticles hold promise for increasing drug bioavailability and reducing dosing frequency for better management of tuberculosis.