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Drug Development and Industrial Pharmacy Volume 16, 1990 - Issue 8
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Research Article

Melt Granulation in A Laboratory Scale High Shear Mixer

T. Schaefer Department of Pharmaceutics, Royal Danish School of Pharmacy Universitetsparken 2, DK-2100, Copenhagen, Denmark
,
P. Holm Department of Pharmaceutics, Royal Danish School of Pharmacy Universitetsparken 2, DK-2100, Copenhagen, Denmark
&
H. G. Kristensen Department of Pharmaceutics, Royal Danish School of Pharmacy Universitetsparken 2, DK-2100, Copenhagen, Denmark
Pages 1249-1277 | Published online: 20 Oct 2008

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S. A. M. Binhowimal, L. Hanzic & J. C. M. Ho. (2017) Filler to improve concurrent flowability and segregation performance of concrete. Australian Journal of Structural Engineering 18:2, pages 73-85.
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Dali Shukla, Subhashis Chakraborty, Sanjay Singh & Brahmeshwar Mishra. (2011) Lipid-based oral multiparticulate formulations – advantages, technological advances and industrial applications. Expert Opinion on Drug Delivery 8:2, pages 207-224.
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Anna Cecilia Jørgensen & Anette Seo Torstenson. (2008) Humid Storage Conditions Increase the Dissolution Rate of Diazepam from Solid Dispersions Prepared by Melt Agglomeration. Pharmaceutical Development and Technology 13:3, pages 187-195.
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Wai See Cheong, Paul Wan Sia Heng & Tin Wui Wong. (2007) Impact of a Non-meltable Additive on Melt Agglomeration with a Hydrophobic Meltable Binder in High-Shear Mixer. Pharmaceutical Development and Technology 12:4, pages 371-380.
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L. Gu, C. V. Liew & P. W.S. Heng. (2004) Wet Spheronization by Rotary Processing—A Multistage Single‐Pot Process for Producing Spheroids. Drug Development and Industrial Pharmacy 30:2, pages 111-123.
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Yu-E Zhang, Ruy Tchao & Joseph B. Schwartz. (2001) Effect of Processing Methods and Heat Treatment on the Formation of Wax Matrix Tablets for Sustained Drug Release. Pharmaceutical Development and Technology 6:2, pages 131-144.
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Jiasheng Tu, Linbo Wang, Jing Yang, He Fei & Xuemin Li. (2001) Formulation and Pharmacokinetic Studies of Acyclovir Controlled-Release Capsules. Drug Development and Industrial Pharmacy 27:7, pages 687-692.
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T. W. Wong, L. S. C. Wan & P. W. S. Heng. (1999) Effects of Physical Properties of PEG 6000 on Pellets Produced by Melt Pelletization. Pharmaceutical Development and Technology 4:3, pages 449-456.
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B. Evrard, K. Amighi, D. Beten, L. Delattre & A. J. Moës. (1999) Influence of Melting and Rheological Properties of Fatty Binders on the Melt Granulation Process in a High-Shear Mixer. Drug Development and Industrial Pharmacy 25:11, pages 1177-1184.
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Alan Royce, Jiwaji Suryawanshi, Udayan Shah & Krishna Vishnupad. (1996) Alternative Granulation Technique: Melt Granulation. Drug Development and Industrial Pharmacy 22:9-10, pages 917-924.
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L. Juul Thomsen, T. Schaefer & H. G. Kristensen. (1994) Prolonged Release Matrix Pellets Prepared by Melt Pelletization II. Hydrophobic Substances as Meltable Binders. Drug Development and Industrial Pharmacy 20:7, pages 1179-1197.
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Kenji Ukita & Toshio Murakami. (1994) Preparation of Essential Oils Loaded Granule by Melt Granulation. Drug Development and Industrial Pharmacy 20:6, pages 981-992.
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L. Juul Thomsen, T. Schæfer, J. M. Sonnergaard & H. G. Kristensen. (1993) Prolonged release Matrix Pellets Prepared by Melt Pelletization I. Process Variables. Drug Development and Industrial Pharmacy 19:15, pages 1867-1887.
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D. Vojnovic, P. Selenati, F. Rubessa, M. Moneghini & A. Zanchetta. (1992) Wet Granulation in a Small Scale High Shear Mixer. Drug Development and Industrial Pharmacy 18:9, pages 961-972.
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