High-shear granulation of high-molecular weight hypromellose effects of scale-up and process parameters on flow and compaction properties /

High-shear granulation of high-molecular weight hypromellose effects of scale-up and process parameters on flow and compaction properties /

Context: Knowledge of the effects of high-shear granulation process parameters and scale-up on the properties of the produced granules is essential for formulators who face challenges regarding poor flow and compaction during development of modified release tablets based on high-molecular weight hyp...

Teljes leírás

Elmentve itt :
Bibliográfiai részletek
Szerzők: Grdesic Peter
Sovány Tamás
Ilic Ilija German
Dokumentumtípus: Cikk
Megjelent: 2018
Sorozat:DRUG DEVELOPMENT AND INDUSTRIAL PHARMACY 44 No. 11
doi:10.1080/03639045.2018.1496447

mtmt:30525148
Online Access:http://publicatio.bibl.u-szeged.hu/19880
Leíró adatok
Tartalmi kivonat:Context: Knowledge of the effects of high-shear granulation process parameters and scale-up on the properties of the produced granules is essential for formulators who face challenges regarding poor flow and compaction during development of modified release tablets based on high-molecular weight hypromellose (hydroxypropylmethylcellulose (HPMC)) polymers. Almost none of the existing studies deal with realistic industrial formulation. Objective: The aim was to investigate the effects of scale-up and critical process parameters (CPPs) of high-shear granulation on the quality attributes of the granules, particularly in terms of the flow and compaction, using a realistic industrial formulation based on HPMC K100M polymer. Methods: The flow properties were determined using flow time, Carr index, tablet mass, and crushing strength variations. The compaction properties were quantified using the ‘out-of-die’ Heckel and modified Walker models, as well as the tensile strength profile and elastic recovery. High-shear granulation was performed at different scales: 4 L, 300 L, and 600 L. Results and conclusion: The scale itself had larger effects on the granule properties than the CPPs, which demonstrated high robustness of formulation on the individual scale level. Nevertheless, to achieve the desired flow and compaction, the values of the CPPs need to be precisely selected to fine-tune the process conditions. The best flow was achieved at high volumes of water addition, where larger and more spherical granules were obtained. The CPPs showed negligible influence on the compaction with no practical implications, however, the volume of water addition volume was identified as having the largest effects on compaction.
Terjedelem/Fizikai jellemzők:1770-1782
ISSN:0363-9045

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