Aim: To formulate an aerosolized nanoliposomal carrier for remdesivir (AL-Rem) against coronavirus disease 2019. Methods: AL-Rem was prepared using modified hydration technique. Cytotoxicity in lung adenocarcinoma cells, stability and aerodynamic characteristics of developed liposomes were evaluated. Results: AL-Rem showed high encapsulation efficiency of 99.79%, with hydrodynamic diameter of 71.46 ± 1.35 nm and surface charge of -32 mV. AL-Rem demonstrated minimal cytotoxicity in A549 cells and retained monolayer integrity of Calu-3 cells. AL-Rem showed sustained release, with complete drug release obtained within 50 h in simulated lung fluid. Long-term stability indicated >90% drug recovery at 4°C. Desirable aerosol performance, with mass median aerodynamic diameter of 4.56 ± 0.55 and fine particle fraction of 74.40 ± 2.96%, confirmed successful nebulization of AL-Rem. Conclusion: AL-Rem represents an effective alternative for coronavirus disease 2019 treatment.
Keywords: COVID-19; drug delivery; liposomes; localized treatment; nebulizer; pulmonary; remdesivir.
Lay abstract Remdesivir is one of the first drugs approved for the treatment of coronavirus disease 2019. Currently, it is administered via an injection into the bloodstream. This means that the drug circulates around the entire body and only a limited amount reaches the diseased site – the lungs. Frequent dosing is therefore required, which needs expert personnel and multiple hospital visits and can result in serious side effects. In this study, the authors developed specialized, nanosized particles containing the drug remdesivir that can be administered directly into the lungs. This could drastically minimize side effects, enhance efficacy and allow easy self-administration at home. The results of the study are promising but require additional investigation.