Concordance of vacuum compression molding with spray drying in screening of amorphous solid dispersions of itraconazole.

ABSTRACT

Spray drying is a well-established method for screening spray dried dispersions (SDDs) but is material consuming, and the amorphous solid dispersions (ASDs) formed have low bulk density. Vacuum Compression Molding (VCM) is a potential method to avoid these limitations. This study focuses on VCM to screen ASDs containing itraconazole and L, M, or H polymer grades of hydroxypropyl methylcellulose acetate succinate (HPMCAS) and compares their morphology, amorphous stability, and dissolution performance with spray drying. Results indicate that VCM ASDs were comparable to SDDs. Both VCM ASDs and spray drying SDDs with HPMCAS-L and HPMCAS-M had improved dissolution profiles, while HPMCAS-H did not. Dynamic light scattering findings agreed with dissolution profiles, indicating that L and M grades produced monodisperse, smaller colloids, whereas H grade formed larger, polydisperse colloids. Capsules containing ASDs from VCM disintegrated and dissolved in the media; however, SDD capsules formed agglomerates and failed to disintegrate completely. Findings indicate that the VCM ASDs are comparable to SDDs in terms of dissolution performance and amorphous stability. VCM may be utilized in early ASD formulation development to select drug-polymer pairs for subsequent development.