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Drug Development and Industrial Pharmacy Volume 38, 2012 - Issue 1
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Research Article

An investigation into the impact of magnesium stearate on powder feeding during roller compaction

Jason DawesDepartment of Chemical Engineering, University of Birmingham, Birmingham, UK
,
John F. GambleMaterials Science, DPST, Bristol-Myers Squibb, Reeds Lane, Moreton, Wirral, UK
,
Richard GreenwoodDepartment of Chemical Engineering, University of Birmingham, Birmingham, UK
,
Phil RobbinsDepartment of Chemical Engineering, University of Birmingham, Birmingham, UKCorrespondence[email protected]
&
Mike TobynMaterials Science, DPST, Bristol-Myers Squibb, Reeds Lane, Moreton, Wirral, UK
Pages 111-122 | Received 30 Nov 2010, Accepted 30 May 2011, Published online: 03 Aug 2011

References

  • Kleinebudde P. (2004). Roll compaction/dry granulation: pharmaceutical applications. Eur J Pharm Biopharm, 58:317–326.
  • Bindhumadhavan G, Seville JPK, Adams MJ, Greenwood RW, Fitzpatrick S. (2005). Roll compaction of a pharmaceutical excipient: Experimental validation of rolling theory for granular solids. Chem Eng Sci 60:3891–3897.
  • Johanson JR. (1965). A rolling theory for granular solids. J App Mech 32:842–848.
  • Schönert K, Sander U. (2002). Shear stresses and material slip in high pressure roller mills. Powder Technol 122:136–144.
  • Patel BA, Adams MJ, Turnbull N, Bentham AC, Wu CY. (2010). Predicting the pressure distribution during roll compaction from uniaxial compaction measurements. Chem Eng J 164:410–417.
  • Wang J, Wen H, Desai D. (2010). Lubrication in tablet formulations. Eur J Pharm Biopharm, 75:1–15.
  • Kikuta J-I, Kitamori N. (1994). Effect of Mixing Time on the Lubricating Properties of Magnesium Stearate and the Final Characteristics of the Compressed Tablets. Drug Dev Ind Pharm 20:343–355.
  • Yamamura T, Ohta T, Taira T, Ogawa Y, Sakai Y, Moribe K, Yamaoto K. (2009). Effects of automated external lubrication on tablet properties and the stability of eprazinone hydrochloride. Int J Pharm, 370:1–7.
  • He X, Secreast PJ, Amidon GE. (2007). Mechanistic study of the effect of roller compaction and lubricant on tablet mechanical strength. J Pharm Sci, 96:1342–1355.
  • Herting MG, Kleinebudde P. (2008). Studies on the reduction of tensile strength of tablets after roll compaction/dry granulation. Eur J Pharm Biopharm, 70:372–379.
  • Van Der Voort Maarschalk K, Zuurman K, Vromans H, Bolhuis GK, Lerk CF. (1996). Porosity expansion of tablets as a result of bonding and deformation of particulate solids. Int J Pharm. 140:185–193.
  • Vromans H, Lerk CF. (1988). Densification properties and compactibility of mixtures of pharmaceutical excipients with and without magnesium stearate. Int J Pharm 46:183–192.
  • Zuurman K, Van der Voort Maarschalk K, Bolhuis GK. (1999). Effect of magnesium stearate on bonding and porosity expansion of tablets produced from materials with different consolidation properties. Int J Pharm, 179:107–115.
  • Guest R. 2009. Croscarmellose Sodium Monograph. In: Rowe RC, Sheskey PJ, Quinn ME, editors. Handbook of pharmaceutical excipients. 6th ed. London: Pharmaceutical Press.
  • Shah AC, Mlodozeniec AR. (1977). Mechanism of surface lubrication: influence of duration of lubricant-excipient mixing on processing characteristics of powders and properties of compressed tablets. j Pharm Sci, 66:1377–1378.
  • Kushner J 4th, Moore F. (2010). Scale-up model describing the impact of lubrication on tablet tensile strength. Int J Pharm, 399:19–30.
  • Otsuka M, Yamane I, Matsuda Y. (2004). Effects of lubricant mixing on compression properties of various kinds of direct compression excipients and physical properties of the tablets. Adv Powder Technol 15:477–493.
  • Ragnarsson G, Holzer AW, Sjogren J. (1979). The influence of mixing time and colloidal silica on the lubricating properties of magnesium stearate. Int J Pharm 3:127–131.
  • Hein S, Picker-Freyer KM, Langridge J. (2008). Simulation of roller compaction with subsequent tableting and characterization of lactose and microcrystalline cellulose. Pharm Dev Technol, 13:523–532.
  • Herting MG, Kleinebudde P. (2007). Roll compaction/dry granulation: effect of raw material particle size on granule and tablet properties. Int J Pharm, 338:110–118.
  • Sun CC, Himmelspach MW. (2006). Reduced tabletability of roller compacted granules as a result of granule size enlargement. J Pharm Sci, 95:200–206.
  • Miguélez-Morán AM, Wu CY, Seville JP. (2008). The effect of lubrication on density distributions of roller compacted ribbons. Int J Pharm, 362:52–59.
  • Miguélez-Morán AM, Wu CY, Dong H, Seville JP. (2009). Characterisation of density distributions in roller-compacted ribbons using micro-indentation and X-ray micro-computed tomography. Eur J Pharm Biopharm, 72:173–182.
  • Swaminathan V, Kildsig DO. (2001). An examination of the moisture sorption characteristics of commercial magnesium stearate. AAPS Pharmscitech, 2:28.
  • Gamble JF, Tobyn M, Dennis AB, Shah T. (2010). Roller compaction: Application of an in-gap ribbon porosity calculation for the optimization of downstream granule flow and compactability characteristics. Pharm Dev Technol 15:223–229.
  • Faqih A, Alexander A, Muzzio F, Tomassone M. (2007). A method for predicting hopper flow characteristics of pharmaceutical powders. Chem Eng Sci 62:1536–1542.
  • Zinchuk AV, Mullarney MP, Hancock BC. (2004). Simulation of roller compaction using a laboratory scale compaction simulator. Int J Pharm, 269:403–415.
  • Bultmann JM. (2002). Multiple compaction of microcrystalline cellulose in a roller compactor. Eur J Pharm Biopharm, 54:59–64.

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