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Drug Development and Industrial Pharmacy Volume 13, 1987 - Issue 9-11
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Research Article

Comparative Tableting Properties of Sixteen Microcrystalline Celluloses

E. Doelker Laboratoire de Pharmacie galénique, Université de Genève, Sciences II 30, quai Ernest-Ansermet, 1216 Genève 4Switzerland
,
D. Mordier Laboratoire de Pharmacie galénique, Université de Genève, Sciences II 30, quai Ernest-Ansermet, 1216 Genève 4Switzerland
,
H. Iten Labatec-Pharma S.A., rue du Cardinal-Journet, 1217, MeyrinSwitzerland
&
P. Humbert-Droz Labatec-Pharma S.A., rue du Cardinal-Journet, 1217, MeyrinSwitzerland
Pages 1847-1875 | Published online: 20 Oct 2008

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Joseph Kushner$suffix/text()$suffix/text(). (2013) Utilizing quantitative certificate of analysis data to assess the amount of excipient lot-to-lot variability sampled during drug product development. Pharmaceutical Development and Technology 18:2, pages 333-342.
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Carmen Cristina Díaz Ramírez & Leopoldo Villafuerte Robles. (2010) Surrogate functionality of celluloses as tablet excipients. Drug Development and Industrial Pharmacy 36:12, pages 1422-1435.
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Rahul V. Haware, Annette Bauer-Brandl & Ingunn Tho. (2010) Comparative evaluation of the powder and compression properties of various grades and brands of microcrystalline cellulose by multivariate methods. Pharmaceutical Development and Technology 15:4, pages 394-404.
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D. Fraser Steele, Stephen Edge, Michael J. Tobyn, R. Christian Moreton & John N. Staniforth. (2003) Adsorption of an Amine Drug onto Microcrystalline Cellulose and Silicified Microcrystalline Cellulose Samples. Drug Development and Industrial Pharmacy 29:4, pages 475-487.
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Eijiro Horisawa, Kazumi Danjo & Hisakazu Sunada. (2000) Influence of Granulating Method on Physical and Mechanical Properties, Compression Behavior, and Compactibility of Lactose and Microcrystalline Cellulose Granules. Drug Development and Industrial Pharmacy 26:6, pages 583-593.
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Kenta Goto, Hisakazu Sunada, Kazumi Danjo & Yorinobu Yonezawa. (1999) Pharmaceutical Evaluation of Multipurpose Excipients for Direct Compressed Tablet Manufacture: Comparisons of the Capabilities of Multipurpose Excipients with Those in General Use. Drug Development and Industrial Pharmacy 25:8, pages 869-878.
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Robert O. Williams, Mongkol Sriwongjanya & Melisa K. Barron. (1997) Compaction Properties of Microcrystalline Cellulose Using Tableting Indices. Drug Development and Industrial Pharmacy 23:7, pages 695-704.
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J. Flemming & J. B. Mielck. (1995) Requirements for the Production of Microtablets: Suitability of Direct-Compression Excipients Estimated from Powder Characteristics and Flow Rates. Drug Development and Industrial Pharmacy 21:19, pages 2239-2251.
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E. Doelker, D. Massuelle, F. Veuillez & P. Humbert-Droz. (1995) Morphological, Packing, Flow and Tableting Properties of New Avicel Types. Drug Development and Industrial Pharmacy 21:6, pages 643-661.
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Peter C. Schmidt & Claus J. W. Rubensdörfer. (1994) Evaluation of Ludipress as a “Multipurpose Excipeent” for Direct Compression: Part I: Powder Characteristics and Tableting Properties. Drug Development and Industrial Pharmacy 20:18, pages 2899-2925.
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M. Landín, M. P. González, C. Souto, A. Concheiro, J. L. Gómez-Amoza & R. Martínez-Pacheco. (1993) Comparison of two Varieties of Microcrystalline Cellulose as Filler-Binders II. Hydrochlorothiazide Tablets. Drug Development and Industrial Pharmacy 19:10, pages 1211-1220.
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E. Doelker. (1993) Comparative compaction properties of various Microcrystalline Cellulose types and Generic Products. Drug Development and Industrial Pharmacy 19:17-18, pages 2399-2471.
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M. Landín, M. J. Vázquez, C. Souto, A. Concheiro, J. L. Gómez-amoza & R. Martínez-pacheco. (1992) Comparison of two varieties of microcrystalline cellulose as filler-binders I. Perdnisone tablets. Drug Development and Industrial Pharmacy 18:3, pages 355-368.
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Vincent Ndika Ezea, Sunday Chidozie Umerie & Kingsley Ikechukwu Ubaoji. (2019) Chemical modification of cellulose from palm kernel de-oiled cake to microcrystalline cellulose and its evaluation as a pharmaceutical excipient. African Journal of Pure and Applied Chemistry 13:4, pages 49-57.
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Sonia M. Razavi, Marcial Gonzalez & Alberto M. Cuitiño. (2018) Quantification of lubrication and particle size distribution effects on tensile strength and stiffness of tablets. Powder Technology 336, pages 360-374.
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