Evaluating Spray Drying and Co-precipitation as Manufacturing Processes for Amorphous Solid Dispersions of a Low Tg API
Amorphous solid dispersions feature prominently in the approach to mitigate low bioavailability of poorly water-soluble small molecules, particularly in the early development space focusing on toxicity evaluations and clinical studies in normal healthy volunteers, where high exposures are needed to establish safety margins. Spray drying has been the go-to processing route for a number of reasons, including ubiquitous availability of equipment, the ability to accommodate small scale deliveries, and established processes for delivering single phase amorphous material. Active pharmaceutical ingredients (APIs) with low glass transition temperatures (Tg) can pose challenges to this approach. This study addresses multiple routes towards overcoming issues encountered with a low Tg (∼ 12°C) API during manufacture of a spray dry intermediate (SDI).
Even once formulated as an amorphous solid dispersion (ASD) with HPMCAS-LG, the Tg of the ASD was sufficiently low to require the use of non-ideal solvents, posing safety concerns and ultimately resulting in low yields with frequent process interruptions to resolve product build-up. To resolve challenges with spray drying the HPMCAS-L SDI, higher Tg polymers were assessed during spray drying, and an alternative antisolvent precipitation-based process was evaluated to generate co-precipitated amorphous dispersions (cPAD) with either HPMCAS-L or the additional higher Tg polymers. Both approaches were found to be viable alternatives to achieve single phase ASDs while demonstrating comparable in vitro and in vivo bioperformance compared to the SDI. The results of this effort offer valuable considerations for future early-stage activities for ASDs with low Tg APIs.
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Following excipients are mentioned in the study besides other: Eudragit L100, PVP K29-32
Marina A. Solomos, Ashish Punia, Sugandha Saboo, Christopher John, Christopher W. Boyce, Alexander Chin, Robert V. Taggart, Daniel Smith, Matthew S. Lamm, Luke Schenck, Evaluating Spray Drying and Co-precipitation as Manufacturing Processes for Amorphous Solid Dispersions of a Low Tg API, Journal of Pharmaceutical Sciences, 2023, ISSN 0022-3549, https://doi.org/10.1016/j.xphs.2023.02.011.
See also this two days seminar on ASD:
