Application of melt granulation technology to enhance tabletting properties of poorly compactible high-dose drugs.

Using metformin HCl as the model drug and hydroxypropylcellulose (HPC) as the polymeric excipient, a melt granulation (MG) process that employs a twin-screw extruder has been developed to enhance compactibility of poorly compactible high-dose drug substances. A high (90%) drug-load tablet formulation, containing 1025 mg of active pharmaceutical ingredients and 109 mg of excipients, was produced. Drug-polymer-powder mixtures were melt granulated at a temperature above glass transition of HPC (130°C) but below melting point of metformin HCl (224°C). MG was compared with modified wet granulation (WG) and solvent granulation (SG) processes. Under identical compression force, the hardness of tablets produced was MG>SG>WG and the friability was MG<SG<WG. The hardness of WG tablets was highly sensitive to moisture content both during compression and subsequent storage, and, although not to the same extent, the hardness of SG tablets was also affected by loss-on-drying levels. MG provided a robust manufacturing process with highest compactibility and lowest friability that were not sensitive to changes in atmospheric moisture level. The process can decrease tablet sizes of high-dose drugs and combination products by decreasing the need for relatively large amounts of excipients generally used to overcome physicochemical limitations of drug substances. © 2010 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 100:1553-1565, 2011.

[1]  K. Florey,et al.  Analytical profiles of drug substances and excipients , 1992 .

[2]  J. Breitenbach Melt extrusion: from process to drug delivery technology. , 2002, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[3]  Feng Zhang,et al.  Properties of lipophilic matrix tablets containing phenylpropanolamine hydrochloride prepared by hot-melt extrusion. , 2001, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[4]  J. Schwartz,et al.  Evaluation and Comparison of a Moist Granulation Technique to Conventional Methods , 2000, Drug development and industrial pharmacy.

[5]  L. Delattre,et al.  Influence of melting and rheological properties of fatty binders on the melt granulation process in a high-shear mixer. , 1999, Drug development and industrial pharmacy.

[6]  Charles E. Martin,et al.  Pharmaceutical Applications of Hot-Melt Extrusion: Part I , 2007, Drug development and industrial pharmacy.

[7]  J. Bronlund,et al.  Effects of capillary condensation on the caking of bulk sucrose , 2006 .

[8]  E. D. Barnhart Physicians Desk Reference , 1990 .

[9]  A. Serajuddin,et al.  Application of melt granulation technology to enhance stability of a moisture sensitive immediate-release drug product. , 2009, International journal of pharmaceutics.

[10]  A. Royce,et al.  Alternative Granulation Technique: Melt Granulation , 1996 .

[11]  P Kleinebudde,et al.  Melt pelletisation of a hygroscopic drug in a high shear mixer. Part 1. Influence of process variables. , 1999, International journal of pharmaceutics.

[12]  Jean Paul Remon,et al.  Melt granulation using a twin-screw extruder: a case study. , 2006, International journal of pharmaceutics.

[13]  D. Bika,et al.  Strength and morphology of solid bridges in dry granules of pharmaceutical powders , 2005 .

[14]  I Grabnar,et al.  Preparation in high-shear mixer of sustained-release pellets by melt pelletisation. , 2000, International journal of pharmaceutics.

[15]  P. Heng,et al.  Melt Processes for Oral Solid Dosage Forms , 2013 .

[16]  S. Hui,et al.  Synergistic effect of anionic lipid enhancer and electroosmosis for transcutaneous delivery of insulin. , 2006, International journal of pharmaceutics.