In-depth experimental analysis of pharmaceutical twin-screw wet granulation in view of detailed process understanding

[Display omitted] Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral dosage forms. However, limited prior fundamental physical understanding has been generated relating to the granule formation mechanisms and ki...

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Published in:	International journal of pharmaceutics Vol. 529; no. 1-2; pp. 678 - 693
Main Authors:	Verstraeten, Maxim, Van Hauwermeiren, Daan, Lee, Kai, Turnbull, Neil, Wilsdon, David, am Ende, Mary, Doshi, Pankaj, Vervaet, Chris, Brouckaert, Davinia, Mortier, Séverine T.F.C., Nopens, Ingmar, Beer, Thomas De
Format:	Journal Article
Language:	English
Published:	Netherlands Elsevier B.V 30-08-2017
Subjects:	Chemistry, Pharmaceutical Particle Size Pharmaceutical Preparations Technology, Pharmaceutical Twin-screw wet granulation Twin-screw wet granulation
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Abstract	[Display omitted] Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral dosage forms. However, limited prior fundamental physical understanding has been generated relating to the granule formation mechanisms and kinetics along the internal compartmental length of a twin-screw granulator barrel, and about how process settings, barrel screw configuration and formulation properties such as particle size, density and surface properties influence these mechanisms. One of the main reasons for this limited understanding is that experimental data is generally only collected at the exit of the twin-screw granulator barrel although the granule formation occurs spatially along the internal length of the barrel. The purpose of this study is to analyze the twin-screw wet granulation process using both hydrophilic and hydrophobic formulations, manufactured under different process settings such as liquid-to-solid ratio, mass throughput and screw speed, in such a way that the mechanisms occurring in the individual granulator barrel compartments (i.e., the wetting and different conveying and kneading compartments) and their impact upon granule formation are understood. To achieve this, a unique experimental setup was developed allowing granule characteristic data-collection such as size, shape, liquid and porosity distribution at the different compartments along the length of the granulator barrel. Moreover, granule characteristic information per granule size class was determined. The experimental results indicated that liquid-to-solid ratio is the most important factor dictating the formation of the granules and their corresponding properties, by regulating the degree of aggregation and breakage in the different compartments along the internal length of the twin-screw granulator barrel. Collecting appropriate and detailed experimental data about granule formation along the internal length of the granulator barrel is thus crucial for gaining fundamental physical understanding of the twin-screw wet granulation process.
AbstractList	Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral dosage forms. However, limited prior fundamental physical understanding has been generated relating to the granule formation mechanisms and kinetics along the internal compartmental length of a twin-screw granulator barrel, and about how process settings, barrel screw configuration and formulation properties such as particle size, density and surface properties influence these mechanisms. One of the main reasons for this limited understanding is that experimental data is generally only collected at the exit of the twin-screw granulator barrel although the granule formation occurs spatially along the internal length of the barrel. The purpose of this study is to analyze the twin-screw wet granulation process using both hydrophilic and hydrophobic formulations, manufactured under different process settings such as liquid-to-solid ratio, mass throughput and screw speed, in such a way that the mechanisms occurring in the individual granulator barrel compartments (i.e., the wetting and different conveying and kneading compartments) and their impact upon granule formation are understood. To achieve this, a unique experimental setup was developed allowing granule characteristic data-collection such as size, shape, liquid and porosity distribution at the different compartments along the length of the granulator barrel. Moreover, granule characteristic information per granule size class was determined. The experimental results indicated that liquid-to-solid ratio is the most important factor dictating the formation of the granules and their corresponding properties, by regulating the degree of aggregation and breakage in the different compartments along the internal length of the twin-screw granulator barrel. Collecting appropriate and detailed experimental data about granule formation along the internal length of the granulator barrel is thus crucial for gaining fundamental physical understanding of the twin-screw wet granulation process. [Display omitted] Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral dosage forms. However, limited prior fundamental physical understanding has been generated relating to the granule formation mechanisms and kinetics along the internal compartmental length of a twin-screw granulator barrel, and about how process settings, barrel screw configuration and formulation properties such as particle size, density and surface properties influence these mechanisms. One of the main reasons for this limited understanding is that experimental data is generally only collected at the exit of the twin-screw granulator barrel although the granule formation occurs spatially along the internal length of the barrel. The purpose of this study is to analyze the twin-screw wet granulation process using both hydrophilic and hydrophobic formulations, manufactured under different process settings such as liquid-to-solid ratio, mass throughput and screw speed, in such a way that the mechanisms occurring in the individual granulator barrel compartments (i.e., the wetting and different conveying and kneading compartments) and their impact upon granule formation are understood. To achieve this, a unique experimental setup was developed allowing granule characteristic data-collection such as size, shape, liquid and porosity distribution at the different compartments along the length of the granulator barrel. Moreover, granule characteristic information per granule size class was determined. The experimental results indicated that liquid-to-solid ratio is the most important factor dictating the formation of the granules and their corresponding properties, by regulating the degree of aggregation and breakage in the different compartments along the internal length of the twin-screw granulator barrel. Collecting appropriate and detailed experimental data about granule formation along the internal length of the granulator barrel is thus crucial for gaining fundamental physical understanding of the twin-screw wet granulation process.
Author	Lee, Kai Beer, Thomas De Wilsdon, David am Ende, Mary Doshi, Pankaj Vervaet, Chris Nopens, Ingmar Verstraeten, Maxim Turnbull, Neil Brouckaert, Davinia Van Hauwermeiren, Daan Mortier, Séverine T.F.C.
Author_xml	– sequence: 1 givenname: Maxim surname: Verstraeten fullname: Verstraeten, Maxim organization: Laboratory of Pharmaceutical Process Analytical Technology, Dept. of Pharmaceutical Analysis, Ghent University, Ghent, Belgium – sequence: 2 givenname: Daan surname: Van Hauwermeiren fullname: Van Hauwermeiren, Daan organization: Laboratory of Pharmaceutical Process Analytical Technology, Dept. of Pharmaceutical Analysis, Ghent University, Ghent, Belgium – sequence: 3 givenname: Kai surname: Lee fullname: Lee, Kai organization: Worldwide Research and Development, Pfizer Inc., Sandwich, Kent, UK – sequence: 4 givenname: Neil surname: Turnbull fullname: Turnbull, Neil organization: Worldwide Research and Development, Pfizer Inc., Sandwich, Kent, UK – sequence: 5 givenname: David surname: Wilsdon fullname: Wilsdon, David organization: Worldwide Research and Development, Pfizer Inc., Sandwich, Kent, UK – sequence: 6 givenname: Mary surname: am Ende fullname: am Ende, Mary organization: Worldwide Research and Development, Pfizer Inc., Groton, CT, USA – sequence: 7 givenname: Pankaj surname: Doshi fullname: Doshi, Pankaj organization: Worldwide Research and Development, Pfizer Inc., Groton, CT, USA – sequence: 8 givenname: Chris surname: Vervaet fullname: Vervaet, Chris organization: Laboratory of Pharmaceutical Technology, Dept. of Pharmaceutics, Ghent University, Ghent, Belgium – sequence: 9 givenname: Davinia surname: Brouckaert fullname: Brouckaert, Davinia organization: Laboratory of Pharmaceutical Process Analytical Technology, Dept. of Pharmaceutical Analysis, Ghent University, Ghent, Belgium – sequence: 10 givenname: Séverine T.F.C. surname: Mortier fullname: Mortier, Séverine T.F.C. organization: BIOMATH, Dept. of Mathematical Modelling, Statistics and Bioinformatics, Ghent University, Gent, Belgium – sequence: 11 givenname: Ingmar surname: Nopens fullname: Nopens, Ingmar organization: BIOMATH, Dept. of Mathematical Modelling, Statistics and Bioinformatics, Ghent University, Gent, Belgium – sequence: 12 givenname: Thomas De surname: Beer fullname: Beer, Thomas De email: Thomas.DeBeer@UGent.be organization: Laboratory of Pharmaceutical Process Analytical Technology, Dept. of Pharmaceutical Analysis, Ghent University, Ghent, Belgium
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Snippet	[Display omitted] Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral... Twin-screw wet granulation is gaining increasing interest within the pharmaceutical industry for the continuous manufacturing of solid oral dosage forms....
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SubjectTerms	Chemistry, Pharmaceutical Particle Size Pharmaceutical Preparations Technology, Pharmaceutical Twin-screw wet granulation
Title	In-depth experimental analysis of pharmaceutical twin-screw wet granulation in view of detailed process understanding
URI	https://dx.doi.org/10.1016/j.ijpharm.2017.07.045 https://www.ncbi.nlm.nih.gov/pubmed/28720539 https://search.proquest.com/docview/1920392072
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