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Drug Development and Industrial Pharmacy Volume 16, 1990 - Issue 3
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Research Article

Comparison of Moisture-Activated Dry Granulation Profess with Conventional Granulation Methods for Sematilide Hydrochloride Tablets

Chih-Ming Chen Berlex Laboratories, Inc. Pharmacy R&D Department Cedar Knolls, New Jersey, 07927
,
Dhananjaya Alli Berlex Laboratories, Inc. Pharmacy R&D Department Cedar Knolls, New Jersey, 07927
,
Michael R. Igga Berlex Laboratories, Inc. Pharmacy R&D Department Cedar Knolls, New Jersey, 07927
&
Jeffrey L. Czeisler Berlex Laboratories, Inc. Pharmacy R&D Department Cedar Knolls, New Jersey, 07927
Pages 379-394 | Published online: 20 Oct 2008

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Kaushalendra Chaturvedi, Bhavin Y. Gajera, Ting Xu, Harsh Shah & Rutesh H. Dave. (2018) Influence of processing methods on physico-mechanical properties of Ibuprofen/HPC-SSL formulation. Pharmaceutical Development and Technology 23:10, pages 1108-1116.
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Debra S. Hausman. (2004) Comparison of Low Shear, High Shear, and Fluid Bed Granulation During Low Dose Tablet Process Development. Drug Development and Industrial Pharmacy 30:3, pages 259-266.
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Aniruddha M. Railkar & Joseph B. Schwartz. (2000) Evaluation and Comparison of a Moist Granulation Technique to Conventional Methods. Drug Development and Industrial Pharmacy 26:8, pages 885-889.
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L. H. Christensen, H. E. Johansen & T. Schaefer. (1994) Moisture-Activated dry Granulation in a high Shear Mixer. Drug Development and Industrial Pharmacy 20:14, pages 2195-2213.
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Articles from other publishers (14)

Andres Letona, Sungahm Ahn, Suyeon An, Daebeom Yun, Young-Rok Kim, Mario Muralles & Donghwa Chung. (2023) High-Shear Granulation of Hygroscopic Probiotic-Encapsulated Skim Milk Powder: Effects of Moisture-Activation and Resistant Maltodextrin. Pharmaceuticals 16:2, pages 217.
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Mizuki Yamada, Agata Ishikawa, Shun Muramatsu, Takayuki Furuishi, Yoshinori Onuki, Kaori Fukuzawa & Etsuo Yonemochi. (2022) Study of Orally Disintegrating Tablets Using Erythritol as an Excipient Produced by Moisture-Activated Dry Granulation (MADG). Pharmaceuticals 15:8, pages 1004.
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Agata Ishikawa, Hiroshi TakasakiAtsushi SakuraiTakuma KatayamaKoichi WadaTakayuki Furuishi, Kaori Fukuzawa, Yasuko Obata & Etsuo Yonemochi. (2021) Manufacturability and Properties of Granules and Tablets Using the Eco-Friendly Granulation Method Green Fluidized Bed Granulation Compared to Direct Compression. Chemical and Pharmaceutical Bulletin 69:5, pages 447-455.
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Hiroshi Takasaki, Atsushi Sakurai, Takuma Katayama, Yuka Matsuura, Naoko Ohyagi, Masashi Mizoguchi, Junichi Takano, Koichi Wada, Koh Matsui, Takuya Nagato, Agata Ishikawa & Etsuo Yonemochi. (2019) Importance of free water in controlling granule and tablet properties in a novel granulation method, green fluidized bed granulation (GFBG). International Journal of Pharmaceutics 570, pages 118647.
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Y. Liu, M. R. Thompson, K. P. O'Donnell & S. Ali. (2017) Heat assisted twin screw dry granulation. AIChE Journal 63:11, pages 4748-4760.
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Kailas K. Moravkar, Tariq M. Ali, Jaywant N. Pawar & Purnima D. Amin. (2017) Application of moisture activated dry granulation (MADG) process to develop high dose immediate release (IR) formulations. Advanced Powder Technology 28:4, pages 1270-1280.
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Hiroshi Takasaki, Etsuo Yonemochi, Masanori Ito, Koichi Wada & Katsuhide Terada. (2016) The effect of water activity on granule characteristics and tablet properties produced by moisture activated dry granulation (MADG). Powder Technology 294, pages 113-118.
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Hiroshi Takasaki, Etsuo Yonemochi, Masanori Ito, Koichi Wada & Katsuhide Terada. (2015) The importance of binder moisture content in Metformin HCL high-dose formulations prepared by moist aqueous granulation (MAG). Results in Pharma Sciences 5, pages 1-7.
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Hiroshi Takasaki, Etsuo Yonemochi, Roman Messerschmid, Masanori Ito, Koichi Wada & Katsuhide Terada. (2013) Importance of excipient wettability on tablet characteristics prepared by moisture activated dry granulation (MADG). International Journal of Pharmaceutics 456:1, pages 58-64.
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Jinjiang Li, Li Tao, Mandar Dali, David Buckley, Julia Gao & Mario Hubert. (2011) The Effect of the Physical States of Binders on High-Shear Wet Granulation and Granule Properties: A Mechanistic Approach Towards Understanding High-Shear Wet Granulation Process. Part I. Physical Characterization of Binders. Journal of Pharmaceutical Sciences 100:1, pages 164-173.
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I. V. Voskoboinikova, S. B. Avakyan, T. A. Sokol’skaya, I. I. Tyulyaev, V. L. Bagirova, V. K. Kolkhir & G. C. Sakovich. (2005) Modern Auxiliary Substances in Tablet Production: Use of High-Molecular-Weight Compounds for the Development of New Medicinal Forms and Optimization of Technological Processes. Pharmaceutical Chemistry Journal 39:1, pages 22-28.
Crossref
Sabine Inghelbrecht & Jean Paul Remon. (1998) Reducing dust and improving granule and tablet quality in the roller compaction process. International Journal of Pharmaceutics 171:2, pages 195-206.
Crossref
H.G. Kristensen. 1995. Advances in Pharmaceutical Sciences Volume 7. Advances in Pharmaceutical Sciences Volume 7 221 272 .
Umesh Banakar. 1991. Pharmaceutical Dissolution Testing. Pharmaceutical Dissolution Testing 133 187 .

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