Abstract

Continuous manufacturing (CM) is an emerging technology in the pharmaceutical manufacturing sector, and the understanding of the impact on product quality is currently evolving. As the final purification and isolation step, crystallization has a significant impact on the final physicochemical properties of drug substance and is considered a critical process step in achieving the continuous manufacturing of drug substances. Although many publications previously focused on various innovative techniques to continuously make crystals with desired properties, engineering difficulties such as system design, automation, and integration with process analytical technology (PAT) tools have not been thoroughly discussed. Here, we focus on how to develop a continuous crystallization system, from the perspective of process engineering, and the related risk considerations on product quality. Specifically, we designed and built an automated two-stage mixed suspension mixed product removal (MSMPR) crystallization platform for a model compound (carbamazepine, CBZ) that exhibits multiple polymorphs. The crystallization process includes the integration of PAT tools (online Raman microscopy and focused beam reflectance microscopy, FBRM) for real-time monitoring. A series of case studies were done to evaluate the performance of the continuous system and PAT tools. Specifically, the drawing schemes, slurry transport, and variations on process variables are considered as the three key risk areas for continuous crystallization process development. Our proof-of-concept continuous crystallization system uses feedback/feedforward controls to achieve constant levels in crystallizers, a centralized automation program coded in LabVIEW, and PAT monitoring for polymorphs and particle size distribution (Raman and FBRM). To the best of our knowledge, this is also the first study on continuous crystallization of carbamazepine for form III and its polymorphic transition (between form II and form III).

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