Effect of Texture and Surface Chemistry on Deagglomeration and Powder Retention in Capsule-Based Dry Powder Inhaler

Abstract

AbstractPulmonary delivery systems should administer a high dose of the required formulation with the designated dry powder inhaler (DPI) to achieve therapeutic success. While the effects of device geometry and individual components used on powder dispersion are described in literature, potential effects of DPI surface properties on powder retention within the device and deagglomeration have not been adequately studied, but could impact inhalation therapy by modifying the available dose. For this, inner parts of a model DPI were modified by plasma treatment using various processes. Since both the hydrophilic-hydrophobic and structural properties of the surface were altered, conclusions can be drawn for future optimization of devices. The results show that surface topography has a greater influence on powder deposition and deagglomeration than hydrophilic or hydrophobic surface modification. The most important modification was observed with an increased rough surface texture in the mouth piece, resulting in lower powder deposition in this part (from 5 to 1% quantified amount of powder), without any change in powder deagglomeration compared to an untreated device. In summary, increasing the surface roughness of DPI components in the size range of a few nanometers could be an approach for future optimization of DPIs to increase the delivered dose. Graphical abstract