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Dual chamber cartridges in a continuous pharmaceutical freeze-drying concept: Determination of the optimal dynamic infrared heater temperature during primary drying

By De Meyer, Laurens; Lammens, Joris; Vanbillemont, Brecht; Van Bockstal, Pieter Jan; Corver, Jos; Vervaet, Chris; Friess, Wolfgang; De Beer, Thomas

Published on

Abstract

The applicability of DCCs in a continuous freeze-drying concept based on spin freezing and infrared heating was evaluated. Maximum applicable filling volume was evaluated. Secondly the mechanistic model for the determination of the optimal dynamic infrared heater temperature during primary drying of regular vials during continuous freeze-drying was adapted and validated for DCCs. Finally, since spin frozen DCCs may be more prone to choked flow due to the small neck opening and the large product surface area, it was evaluated if the choked flow constraints in the model could be increased to improve the efficiency of the drying process. The experiments revealed that the maximum allowable filling volume for spin freezing at the current experimental setup was 0.8 ml which is 80% of the maximum filling volume. Applying the mechanistic model for the determination of the optimal dynamic infrared heater temperature during primary drying of the studied DCCs and experimentally verifying this determined infrared heater temperature trajectory resulted in an elegant freeze-dried product without visual signs of collapse. The experimentally determined primary drying time agreed with the one calculated based on the mechanistic model. Choked flow did not occur during the continuous freeze-drying of DCCs containing 3% sucrose or 3% mannitol.

Journal

International Journal of Pharmaceutics. Volume 570, 2019, 118631

DOI

10.1016/j.ijpharm.2019.118631

Type of publication

Peer-reviewed journal

Affiliations

  • Ghent University

Article Classification

Research article

Classification Areas

  • Oral solid dose

Tags