Abstract
Pulmonary delivery has high bioavailability, a large surface area for absorption, and limited drug degradation. Particle engineering is important to develop inhalable formulations to improve the therapeutic effect. In our work, the poorly water-soluble meloxicam (MX) was used as an active ingredient, which could be useful for the treatment of non-small cell lung cancer, cystic fibrosis, and chronic obstructive pulmonary disease. We aimed to produce inhalable “nano-in-micro” dry powder inhalers (DPIs) containing MX and additives (poly-vinyl-alcohol, leucine). We targeted the respiratory zone with the microcomposites and reached a higher drug concentration with the nanonized active ingredient. We did the following investigations: particle size analysis, morphology, density, interparticular interactions, crystallinity, in vitro dissolution, in vitro permeability, in vitro aerodynamics (Andersen cascade impactor), and in silico aerodynamics (stochastic lung model). We worked out a preparation method by combining wet milling and spray-drying. We produced spherical, 3–4 µm sized particles built up by MX nanoparticles. The increased surface area and amorphization improved the dissolution and diffusion of the MX. The formulations showed appropriate aerodynamical properties: 1.5–2.4 µm MMAD and 72–76% fine particle fraction (FPF) values. The in silico measurements proved the deposition in the deeper airways. The samples were suitable for the treatment of local lung diseases.
Highlights
The main advantages of pulmonary delivery are the result of the huge surface area of the lung (100 m2 ) with a thin absorption layer (0.1–0.2 μm), as well as low metabolic activity
Local delivery is especially effective in patients with serious pulmonary diseases such as asthma, cystic fibrosis (CF), chronic obstructive pulmonary (COPD) disease, and lung cancer [2]
After spray-drying, the size of the particles was applicable for pulmonary delivery, as the D [0.5] values were in the 1–5 μm range and the distribution was monodisperse (Table 4)
Summary
The main advantages of pulmonary delivery are the result of the huge surface area of the lung (100 m2 ) with a thin absorption layer (0.1–0.2 μm), as well as low metabolic activity. Targeted delivery of the drug could provide benefits such as achieving a greater local concentration at the target site with a reduced dose, resulting in reduced systemic side effects and adverse events [1]. Local delivery is especially effective in patients with serious pulmonary diseases such as asthma, cystic fibrosis (CF), chronic obstructive pulmonary (COPD) disease, and lung cancer [2]. For the application of inhaled medications, dry powder inhalers (DPIs) are more widely used compared with nebulizers or metered-dosed inhalers (MDIs). The delivery is driven by the inhalation flow, DPIs are environmentally friendly, and they do not require a compressor or propellant. The administration time is very short and the devices are cheap and portable [3]
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