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Drug Development and Industrial Pharmacy Volume 20, 1994 - Issue 18
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Research Article

Evaluation of Ludipress as a “Multipurpose Excipeent” for Direct Compression: Part I: Powder Characteristics and Tableting Properties

Peter C. Schmidt Department of Pharmaceutical, Technology University of Tübingen Auf der Morgenstelle 8, 72076, Tübingen, Germany
&
Claus J. W. Rubensdörfer Department of Pharmaceutical, Technology University of Tübingen Auf der Morgenstelle 8, 72076, Tübingen, Germany
Pages 2899-2925 | Published online: 20 Oct 2008

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Ines Saniocki, Albrecht Sakmann & Claudia S. Leopold. (2013) How suitable is the measurement of take-off forces for detection of sticking during direct compression of various ibuprofen tablet formulations?. Pharmaceutical Development and Technology 18:1, pages 257-265.
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John Rojas, Ira Buckner & Vijay Kumar. (2012) Co-proccessed excipients with enhanced direct compression functionality for improved tableting performance. Drug Development and Industrial Pharmacy 38:10, pages 1159-1170.
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Sumit Saha & Aliasgar F Shahiwala. (2009) Multifunctional coprocessed excipients for improved tabletting performance. Expert Opinion on Drug Delivery 6:2, pages 197-208.
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M. Viana, B. N’Dri-Stempfer, M. G. Vachon & D. Chulia. (2002) Influence of Manufacturing Process on Tabletting Ability of Powder: Comparison Between Blending, Grinding, and Spray Drying of Two Formulations Made of Theophylline and Lactose/Cellulose or Cellactose®. Drug Development and Industrial Pharmacy 28:2, pages 119-127.
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Manuel Córdoba-Díaz, Manuel Córdoba-Borrego & Damián Córdoba-Díaz. (2000) Influence of Pharmacotechnical Design on the Interaction and Availability of Norfloxacin in Directly Compressed Tablets with Certain Antacids. Drug Development and Industrial Pharmacy 26:2, pages 159-166.
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Santiago D. Palma, Ruben H. Manzo & Daniel A. Allemandi. (1999) Dry Plant Extracts Loaded on Fumed Silica for Direct Compression: Preparation and Preformulation. Pharmaceutical Development and Technology 4:4, pages 523-530.
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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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Articles from other publishers (21)

Ya. A. Kostyro & K. V. Alekseev. (2021) DEVELOPMENT OF PERORAL HYPOLIPIDEMIC FORMULATION BASED ON SULFATED ARABINOGALACTAN IN THE FORM OF POTASSIUM SALT. Pharmacy & Pharmacology 9:6, pages 441-453.
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Nobel O. Sierra-Vega, Krizia M. Karry, Rodolfo J. Romañach & Rafael Méndez. (2021) Monitoring of high-load dose formulations based on co-processed and non co-processed excipients. International Journal of Pharmaceutics 606, pages 120910.
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Naseem Ahmad Charoo. (2019) Critical Excipient Attributes Relevant to Solid Dosage Formulation Manufacturing. Journal of Pharmaceutical Innovation 15:1, pages 163-181.
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Valeria Andrea Cianchino, Laura Silvina Favier, Claudia Alicia Ortega, Cecilia Peralta & Diego Alberto Cifuente. (2020) Formulation development and evaluation of Silybum marianum tablets. Rodriguésia 71.
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Jitka Mužíková, Alena Komersová, Václav Lochař, Lucie Vildová, Bára Vošoustová & Martin Bartoš. (2018) Comparative evaluation of the use of dry binders in a physical mixture or as a coprocessed dry binder in matrix tablets with extended drug release. Acta Pharmaceutica 68:3, pages 295-311.
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QianQian Dong, MiaoMiao Zhou, Xiao Lin, Lan Shen & Yi Feng. (2018) Differences in fundamental and functional properties of HPMC co-processed fillers prepared by fluid-bed coating and spray drying. European Journal of Pharmaceutical Sciences 119, pages 147-158.
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Thomas J. Dennison, Julian Smith, Michael P. Hofmann, Charlotte E. Bland, Raj K. Badhan, Ali Al-Khattawi & Afzal R. Mohammed. (2016) Design of Experiments to Study the Impact of Process Parameters on Droplet Size and Development of Non-Invasive Imaging Techniques in Tablet Coating. PLOS ONE 11:8, pages e0157267.
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SongTao Wang, JinZhi Li, Xiao Lin, Yi Feng, Xiang Kou, Sreehari Babu & Riccardo Panicucci. (2015) Novel coprocessed excipients composed of lactose, HPMC, and PVPP for tableting and its application. International Journal of Pharmaceutics 486:1-2, pages 370-379.
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John Rojas. 2015. Excipient Applications in Formulation Design and Drug Delivery. Excipient Applications in Formulation Design and Drug Delivery 589 612 .
V. Vanhoorne, E. Peeters, B. Van Snick, J.P. Remon & C. Vervaet. (2014) Crystal coating via spray drying to improve powder tabletability. European Journal of Pharmaceutics and Biopharmaceutics 88:3, pages 939-944.
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Silvina G. Castro, Alicia Dib, Gonzalo Suarez, Daniel Allemandi, Carlos Lanusse, Sergio Sanchez Bruni & Santiago D. Palma. (2013) Comparative Plasma Exposure of Albendazole after Administration of Rapidly Disintegrating Tablets in Dogs. BioMed Research International 2013, pages 1-7.
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S Venkatesh, B. N Babu, K. Latha, R Alvala, M. B. Reddy & R. Mullangi. (2012) EVALUATION OF TRAPA BISPINOSA STARCH AS AN ALTERNATIVE TABLET EXCIPIENT TO MAIZE STARCH: ASSESSMENT BY PREFORMULATION AND FORMULATION STUDIES. INDIAN DRUGS 49:08, pages 27-32.
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Silvina G. Castro, Sergio Sanchez Bruni, Carlos E. Lanusse, Daniel A. Allemandi & Santiago D. Palma. (2010) Improved Albendazole Dissolution Rate in Pluronic 188 Solid Dispersions. AAPS PharmSciTech 11:4, pages 1518-1525.
Crossref
Shayne Cox GadA.K. Tiwary, Bharti Sapra & Subheet Jain. 2010. Pharmaceutical Sciences Encyclopedia. Pharmaceutical Sciences Encyclopedia.
Niklas Sandler & David Wilson. (2010) Prediction of granule packing and flow behavior based on particle size and shape analysis. Journal of Pharmaceutical Sciences 99:2, pages 958-968.
Crossref
Piyush Gupta, Satish Nachaegari & Arvind Bansal. 2006. Excipient Development for Pharmaceutical, Biotechnology, and Drug Delivery Systems. Excipient Development for Pharmaceutical, Biotechnology, and Drug Delivery Systems 109 126 .
Cristina Cavallari, Beatrice Albertini, Lorenzo Rodriguez, Antonio M. Rabasco & Adamo Fini. (2005) Release of indomethacin from ultrasound dry granules containing lactose-based excipients. Journal of Controlled Release 102:1, pages 39-47.
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Marta Casalderrey, Consuelo Souto, Angel Concheiro, José Luis Gómez-Amoza & Ramón Martínez-Pacheco. (2004) A Comparison of Drug Loading Capacity of Cellactose with Two ad hoc Processed Lactose–Cellulose Direct Compression Excipients. CHEMICAL & PHARMACEUTICAL BULLETIN 52:4, pages 398-401.
Crossref
Timothy Crowder. 2003. A Guide to Pharmaceutical Particulate Science. A Guide to Pharmaceutical Particulate Science.
Santiago Palma, Claudia Luján, Juan Manuel Llabot, Gloria Barboza, Ruben Hilario Manzo & Daniel Alberto Allemandi. (2002) Design of Peumus boldus tablets by direct compression using a novel dry plant extract. International Journal of Pharmaceutics 233:1-2, pages 191-198.
Crossref
Mira Jivraj, Luigi G. Martini & Carol M. Thomson. (2000) An overview of the different excipients useful for the direct compression of tablets. Pharmaceutical Science & Technology Today 3:2, pages 58-63.
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