A quality by design (QbD) twin-Screw extrusion wet granulation approach for processing water insoluble drugs.

In this study, a Quality by Design (QbD) approach was used to identify the effect of formulation parameters in a twin screw wet extrusion granulation process for the manufacturing of ibuprofen (IBU) granules with increased dissolution rates. A fractional factorial Design of Experiment (DoE) was used to investigate the effect of the excipient composition, binder amount and liquid to solid (L/S) ratio (independent variables) on drug dissolution rates, median particle size diameter and specific surface area (dependent variables). The intra-granular addition of the binder in inorganic/polymer blends processed with ethanol as granulating liquids facilitated the formation of granules at various particle sizes. DoE regression analysis showed that all formulation parameters affect the dependent variables significantly. The enhanced dissolution rates were attributed not only to the IBU particle size reduction and adsorption in the porous inorganic network but also to the high specific surface area of the produced granules. Dynamic vapour sorption showed increased water absorption for granules with small particle size distribution and high specific surface area.

[1]  Vibrational spectroscopy to support the link between rheology and continuous twin-screw melt granulation on molecular level: A case study. , 2016, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[2]  Michael J. Hounslow,et al.  Twin screw wet granulation: Effects of properties of granulation liquid , 2012 .

[3]  Sarfaraz K. Niazi Handbook of Preformulation: Chemical, Biological, and Botanical Drugs , 2006 .

[4]  M. Hounslow,et al.  A microscopic study of granulation mechanisms and their effect on granule properties , 2011 .

[5]  V. Vanhoorne,et al.  Continuous twin screw granulation of controlled release formulations with various HPMC grades. , 2016, International journal of pharmaceutics.

[6]  Jean Paul Remon,et al.  Blend uniformity evaluation during continuous mixing in a twin screw granulator by in-line NIR using a moving F-test. , 2016, Analytica chimica acta.

[7]  Fernando J. Muzzio,et al.  Statistical analysis and comparison of a continuous high shear granulator with a twin screw granulator: Effect of process parameters on critical granule attributes and granulation mechanisms. , 2016, International journal of pharmaceutics.

[8]  M R Thompson,et al.  Twin screw granulation – review of current progress , 2015, Drug development and industrial pharmacy.

[9]  Michael T Harris,et al.  Modification of crystallization behavior in drug/polyethylene glycol solid dispersions. , 2012, Molecular pharmaceutics.

[10]  A. Freer,et al.  Structure of (S)-(+)-ibuprofen , 1993 .

[11]  Influence of filler selection on twin screw foam granulation , 2015, Drug development and industrial pharmacy.

[12]  Ingmar Nopens,et al.  Experimental investigation of granule size and shape dynamics in twin-screw granulation. , 2014, International journal of pharmaceutics.

[13]  T De Beer,et al.  Impact of screw configuration on the particle size distribution of granules produced by twin screw granulation. , 2015, International journal of pharmaceutics.

[14]  P. Kleinebudde,et al.  Simplified formulations with high drug loads for continuous twin-screw granulation. , 2015, International journal of pharmaceutics.

[15]  Amol Batra,et al.  Investigating the Use of Polymeric Binders in Twin Screw Melt Granulation Process for Improving Compactibility of Drugs. , 2017, Journal of pharmaceutical sciences.

[16]  P. Kleinebudde,et al.  Granule size distributions after twin-screw granulation - Do not forget the feeding systems. , 2016, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[17]  M. Thompson,et al.  Hot-melt granulation in a twin screw extruder: effects of processing on formulations with caffeine and Ibuprofen. , 2013, Journal of pharmaceutical sciences.

[18]  C Vervaet,et al.  Comparison of two twin-screw extruders for continuous granulation. , 2009, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[19]  M. Maniruzzaman,et al.  Continuous twin-screw granulation for enhancing the dissolution of poorly water soluble drug. , 2015, International journal of pharmaceutics.

[20]  Thomas Rades,et al.  Distribution of binder in granules produced by means of twin screw granulation. , 2014, International journal of pharmaceutics.

[21]  Anthony J. Carella,et al.  Process optimization for continuous extrusion wet granulation. , 2011, Pharmaceutical development and technology.

[22]  Continuous granulation with a twin-screw extruder , 2008 .

[23]  P. J. Sheskey,et al.  Foam granulation: new developments in pharmaceutical solid oral dosage forms using twin screw extrusion machinery , 2012, Drug development and industrial pharmacy.

[24]  T De Beer,et al.  Continuous twin screw granulation: influence of process variables on granule and tablet quality. , 2012, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[25]  T. De Beer,et al.  The use of rheology to elucidate the granulation mechanisms of a miscible and immiscible system during continuous twin-screw melt granulation. , 2016, International journal of pharmaceutics.

[26]  V. Jannin,et al.  Continuous twin screw melt granulation of glyceryl behenate: Development of controlled release tramadol hydrochloride tablets for improved safety. , 2015, International journal of pharmaceutics.

[27]  R. Gokhale,et al.  Effect of binders on the release rates of direct molded verapamil tablets using twin-screw extruder in melt granulation. , 2014, International journal of pharmaceutics.

[28]  James J. Cartwright,et al.  Twin screw wet granulation: Binder delivery. , 2015, International journal of pharmaceutics.

[29]  Ingmar Nopens,et al.  Mixing and transport during pharmaceutical twin-screw wet granulation: experimental analysis via chemical imaging. , 2014, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[30]  Lipika Chablani,et al.  Inline Real-Time Near-Infrared Granule Moisture Measurements of a Continuous Granulation–Drying–Milling Process , 2011, AAPS PharmSciTech.

[31]  C Vervaet,et al.  Use of a continuous twin screw granulation and drying system during formulation development and process optimization. , 2015, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[32]  Jean Paul Remon,et al.  Visualization and understanding of the granulation liquid mixing and distribution during continuous twin screw granulation using NIR chemical imaging. , 2014, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.