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  • Evolution of supersaturation from amorphous solid dispersions in water-insoluble polymer carriers: Effects of swelling capacity and interplay between partition and diffusion.

Evolution of supersaturation from amorphous solid dispersions in water-insoluble polymer carriers: Effects of swelling capacity and interplay between partition and diffusion.

International journal of pharmaceutics (2020-04-04)
Giovanna C R M Schver, Daniela Nadvorny, Ping I Lee
ABSTRACT

The use of water-insoluble carriers for amorphous solid dispersions (ASDs) has attracted more recent interest as the kinetic solubility profiles (KSP) from these systems can achieve a more sustained level of supersaturation when compared with ASDs based on water-soluble polymers. However, the effect of swelling capacity of water-insoluble carriers on the resulting KSP of ASDs has not been fully explored in terms of their achievable degree and extent of drug supersaturation. Thus, the objective of this study is to compare kinetic solubility profiles of ASDs based on commercially available water-insoluble carriers in order to bridge this knowledge gap and provide fundamental information important to the design of ASDs based on water-insoluble carriers. This was achieved by comparing the KSP from non-sink dissolution studies of ASDs of two model poorly-water soluble drugs, indomethacin (IND) and posaconazole (PCZ) based on commercially available water-insoluble carriers with different equilibrium water swelling such as fully hydrolyzed (physically crosslinked) poly (vinyl alcohol) (PVA), Eudragit RS PO, as well as chemically crosslinked PHEMA hydrogels . Our results show that the higher the swelling capacity of the water-insoluble carrier, the faster the rate of supersaturation generation, and the shorter the sustained supersaturation due to drug precipitation. The interplay of particle size, total dose and the swelling capacity was also shown to be an essential aspect when tailoring the supersaturation generation from water-insoluble polymer-based ASDs. The importance of the swelling feature was confirmed using firstly different polymer carriers (PVA, Eudragit RS PO, and PHEMA) and then polymer samples of identical composition and drug loading but with different swelling capacities (e.g., PVA, physically crosslinked to different degrees). Furthermore, a large drug partitioning value between the polymer carrier and dissolution medium was found to limit the extent of drug release or supersaturation buildup from these ASDs. Finally, the existence of electrostatic polymer-drug interactions realized from our molecular dynamic simulations supports the observed impact of the large partitioning of the model drug IND between the polymer ED RS PO and the dissolution medium, thereby leading to a lower degree of supersaturation generation (or slower drug release) from this ASD.

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Sigma-Aldrich
2-Hydroxyethyl methacrylate, contains ≤250 ppm monomethyl ether hydroquinone as inhibitor, 97%