Non-linear Optical Imaging
Non-linear optical imaging is an emerging technique for imaging drugs and dosage forms . Non-linear optical imaging may be used for non-destructive, non-contact imaging of solid drugs and dosage forms. It offers chemical and structural specificity with no requirement for labels, sub-micron spatial resolution (inherent confocal nature), rapid video-rate image acquisition, and the ability to image samples in aqueous environments in situ.
These combined features make non-linear optical imaging unique compared to existing imaging approaches in the pharmaceutical setting and make the technique well suited to a wide range of solid-state formulation and drug delivery analyses. These include imaging chemical and solid-state form distributions in dosage forms, drug release and dosage form digestion, and drug and micro/nanoparticle distribution in tissues and within live cells. While non-linear optical imaging is comparatively well established in the biomedical field, pharmaceutical applications of non-linear optical imaging are much less widely explored.
The production and manufacturing of solid pharmaceutical products is in need of new technologies to ensure a safe and efficient medical therapy. Hot melt extrusion (HME) is a new and innovative technology in the field of pharmaceutics, which aids to overcome numerous limitations of traditional manufacturing techniques. The benefit of HME is three-fold: First, the bioavailability of poorly soluble drugs is significantly increased due to the conversion of the drug from the crystalline into its amorphous state . Recent work showed that HME is even capable of converting a liquid nanosuspension into a solid formulation in a one-step process , thereby avoiding aggregation of nanocrystals. Second, drug release profiles can be specifically tailored (in most cases retarded release of water soluble drugs) via the application of a proper matrix carrier in combination with plasticisers . Third, drug abuse can be prevented due to superior mechanical properties of the final product .
Oral films have gained interest in the last couple of years. Films for oral application offer an interesting new approach for drug administration. Active pharmaceutical ingredients (API) can be implemented in thin-sheeted polymer film matrices. These dosage forms are intended to be placed in mouth to dissolve in the saliva without the need of additional liquid and without swallowing of a solid dosage form.
Lipid-based drug delivery systems have become a popular approach for the delivery of poorly water-soluble drugs. The limitations associated with this formulation strategy have been the drug solubility in the delivery systems and the lack of characterization techniques predicting the in vivo performance. Solid state characterization of the in vitro digestion products has provided new insights that scrutinize current paradigms in the development of lipid-based drug delivery systems.