Mechanochemically Induced Solid-State Transformations of Levofloxacin

Mol Pharm. 2024 Jun 3;21(6):2838-2853. doi: 10.1021/acs.molpharmaceut.4c00008. Epub 2024 Apr 25.

Abstract

Levofloxacin hemihydrate (LVXh) is a complex fluoroquinolone drug that exists in both hydrated and anhydrous/dehydrated forms. Due to the complexity of such a compound, the primary aim of this study was to investigate the amorphization capabilities and solid-state transformations of LVXh when exposed to mechanical treatment using ball milling. Spray drying was utilized as a comparative method for investigating the capabilities of complete LVX amorphous (LVXam) formation. The solid states of the samples produced were comprehensively characterized by powder X-ray diffraction, thermal analysis, infrared spectroscopy, Rietveld method, and dynamic vapor sorption. The kinetics of the process and the quantification of phases at different time points were conducted by Rietveld refinement. The impact of the different mills, milling conditions, and parameters on the composition of the resulting powders was examined. A kinetic investigation of samples produced using both mills disclosed that it was in fact possible to partially amorphize LVXh upon mechanical treatment. It was discovered that LVXh first transformed to the anhydrous/dehydrated form γ (LVXγ), as an intermediate phase, before converting to LVXam. The mechanism of LVXam formation by ball milling was successfully revealed, and a new method of forming LVXγ and LVXam by mechanical forces was developed. Spray drying from water depicted that complete amorphization of LVXh was possible. The amorphous form of LVX had a glass transition temperature of 80 °C. The comparison of methods highlighted that the formation of LVXam is thus both mechanism- and process-dependent. Dynamic vapor sorption studies of both LVXam samples showed comparable stability properties and crystallized to the most stable hemihydrate form upon analysis. In summary, this work contributed to the detailed understanding of solid-state transformations of essential fluoroquinolones while employing greener and more sustainable manufacturing methods.

Keywords: ball milling; fluoroquinolone; kinetics; levofloxacin; mechanochemistry; phase transformation; spray drying.

MeSH terms

  • Anti-Bacterial Agents / chemistry
  • Calorimetry, Differential Scanning / methods
  • Chemistry, Pharmaceutical / methods
  • Crystallization
  • Drug Compounding / methods
  • Kinetics
  • Levofloxacin* / chemistry
  • Powders / chemistry
  • X-Ray Diffraction* / methods

Substances

  • Levofloxacin
  • Powders
  • Anti-Bacterial Agents