Abstract

Clofazimine (CFZ) is highly active against mycobacterium, including resistant Mycobacterium tuberculosis, but its therapeutic efficacy via the oral route is limited by severe adverse effects, poor aqueous solubility, and slow onset of action. Pulmonary delivery of CFZ is an attractive alternative to target mycobacterium-harboring alveolar macrophages. This study explores the use of air jet milling to develop a respirable, cost-effective CFZ formulation. Jet milled CFZ was readily dispersed from an off-the-shelf dry powder inhaler without the need for additional excipients or carrier particles. Additionally, milled CFZ was internalized by J774.A1 alveolar macrophages within 8 h, with evidence of intracellular biotransformation of the CFZ crystals and macrophage sequestration by 24 h. Less macrophage toxicity was noted in comparison to solubilized drug. Compared to macrophage uptake rate, dissolution of milled CFZ was limited, thereby potentially reducing systemic absorption and subsequent side effects. These results suggest that jet milling is an effective manufacturing method in the development of a CFZ formulation for pulmonary delivery and alveolar macrophage targeting.