Inhalable ceftazidime-roflumilast powder targeting infection and inflammation: Influence of incorporating roflumilast into ceftazidime-leucine co-amorphous formulation.

Co-amorphization of a single drug with amino acid is a technique to improve aerosolization of inhalable spray-dried formulation for inhalation therapy. However, the incorporation of a second drug molecule into drug-amino acid co-amorphous particles to prepare combination formulations has not been explored. Here, we prepared combination powders using two model drugs, ceftazidime and roflumilast, which when concurrently used can potentially improve therapeutic outcome in non-cystic fibrosis bronchiectasis by counteracting both infection and inflammation. The study was performed using a two-step approach. The first step involved the identification of an amino acid and its concentration (% w/w) for the best aerosolization enhancement of ceftazidime by varying the ratios of leucine and tryptophan in combination (0-25 % w/w). In the second step, roflumilast (5-20 % w/w) was incorporated into the formulation containing the selected concentration of the amino acid to understand the impact of introducing a second drug into ceftazidime-amino acid(s) co-amorphous particles. In total, 10 formulations were prepared and characterized in terms of solid-state and aerosol performance. Leucine introduced surface asperity which correlated well with improved aerosolization of the particles. The best fine particle fraction (FPF) (75 %) was achieved with 25 % leucine; hence, leucine was selected as the ideal amino acid at the given concentration to understand the impact of roflumilast inclusion on ceftazidime-leucine system. The ceftazidime-roflumilast powder retained their anti-bacterial and anti-inflammatory properties following formulation. However, inclusion of roflumilast at 5 % dramatically decreased the FPF to 55 % and higher roflumilast concentration did not have much effect on FPF. The decrease in FPF ascribed to the change in particle surface as roflumilast was found to decrease surface asperity. In addition, leucine crystallized with inclusion of roflumilast. This study indicates that inclusion of a second drug into drug-amino acid amorphous matrix particles can affect its solid-state dynamics and aerosol performance; hence, such parameters should be cautiously considered while undertaking similar endeavors of preparing combination formulations.