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Implementing Feedback Granule Size Control in a Continuous DryGranulation Line Using Controlled Impeller Speed of the GranulationUnit, Compaction Force and Gap Width

By Wilms, Annika; Teske, Andreas; Meier, Robin; Wiedey, Raphael; Kleinebudde, Peter

Published on

Abstract

Purpose: In continuous manufacturing of pharmaceuticals, dry granulation is of interest because of its large throughput capacity and energy efficiency. In order to manufacture solid oral dosage forms continuously, valid control strategies for critical quality attributes should be established. To this date, there are no published control strategies for granule size distribution in continuous dry granulation.Methods: In-line laser diffraction was used to determine the size of granules in a continuous roll compaction/dry granulation line (QbCon® dry). Different process parameters were evaluated regarding their influences on granule size. The identified critical process parameters were then incorporated into control strategies. The uncontrolled and the controlled processes were compared based on the resulting granule size. In both processes, a process parameter was changed to induce a shift in median particle size and the controller had to counteract this shift.Results: In principle, all process parameters that affect the median particle size could also be used to control the particle size in a dry granulation process. The sieve impeller speed was found to be well suited to control the median particle size as it reacts fast and can be controlled independently of the throughput or material.Conclusion: The median particle size in continuous roll compaction can be controlled by adjusting process parameters depending on real-time granule size measurements. The method has to be validated and explored further to identify critical requirements to the material and environmental conditions.

Journal

Journal of Pharmaceutical Innovation. Volume 17, 2022, 449-459

DOI

10.1007/s12247-020-09524-3

Type of publication

Peer-reviewed journal

Affiliations

  • Heinrich Heine University
  • INVITE GmbH
  • L.B. Bohle Maschinen + Verfahren GmbH

Article Classification

Research article

Classification Areas

  • PAT
  • Oral solid dose
  • Control

Tags