Design of novel oral ricobendazole formulation applying melting solidification printing process (MESO-PP): An innovative solvent-free alternative method for 3D printing using a simplified concept and low temperature.

This paper describes a melting solidification printing process (MESO-PP) capable of obtaining printed oral solid dosage forms in a safe, versatile, and robust manner avoiding the use of solvents and high temperatures. MESO-PP and Gelucire® 50/13 (fatty polyethylene glycol esters) as ink can be used to obtain a floating sustained-release system with the aim of improving the dissolution and absorption of drugs, such as ricobendazole (RBZ), which have a low and erratic bioavailability. Gelucire 50/13 can be considered a good material to formulate inks using MESO-PP. As a model, the RBZ allowed us to assess that there were no changes in crystallinity and the API-ink interactions were ruled out using TGA, DSC, XRD and FT-IR assays. A batch of printlets, obtained using MESO-PP, fulfilled USP requirements regarding uniformity of mass (827 ± 9 mg) and drug content (211 ± 5 mg). Hardness and friability were 39.23 ± 9.65 N and 1.07 ± 0.5% respectively, just above the 1% USP tablet-friability limit. It was possible to obtain tablets of different sizes with high precision (r2 = 0.995). In vitro dissolution test showed that the printlet had a sustained-release of RBZ (only 7% after 15 min), that erosion was the predominant mechanism for drug release (n-value of Korsmeyer-Peppas equation = 0.991; r2 = 0.99) and that changes in the internal structures modify the release. Consequently, MESO-PP can be considered an excellent alternative to obtain solid pharmaceutical dosage forms with variable geometries for different pharmaceutical applications.

Ricobendazole nanocrystals obtained by media milling and spray drying: Pharmacokinetic comparison with the micronized form of the drug.

Helminthic infections are produced by different types of worms and affect millions of people worldwide. Benzimidazole compounds such as ricobendazole (RBZ) are widely used to treat helminthiasis. However, their low aqueous solubility leads to poor gastrointestinal dissolution, absorption and potential lack of efficacy. The formulation of nanocrystals (NCs) have become the strategy of preference for hydrophobic drugs. In this work, we prepared RBZ NCs (RBZ-NCs) by an optimized combination of bead milling and spray-drying. Following the physicochemical characterization, a comparative pharmacokinetic evaluation of RBZ-NCs was performed in dogs using as controls a micronized powdered form of RBZ (mRBZ) and a physical mixture of drug and stabilizer 1:1 (PM). The particle size of the redispersed RBZ-NCs was 181.30 ± 5.93 nm, whereas DSC, PXRD and FTIR analyses demonstrated that the active ingredient RBZ remained physicochemically unchanged after the manufacture process. RBZ-NCs exhibited improved in vitro biopharmaceutical behaviour when compared to mRBZ. Consequently, the pharmacokinetic trial demonstrated a significant increase in the drug oral absorption, with an AUC0-∞ 1.9-fold higher in comparison to that obtained in animals treated with mRBZ. This novel formulation holds substantial potential for the development of new/alternative treatments for helminth infections both in human and veterinary medicine.