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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

477 related items for PubMed ID: 22966909

  • 21. Material and tablet properties of pregelatinized (thermally modified) Dioscorea starches.
    Odeku OA, Schmid W, Picker-Freyer KM.
    Eur J Pharm Biopharm; 2008 Sep; 70(1):357-71. PubMed ID: 18562187
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  • 22. [Microcrystalline cellulose and their flow -- morphological properties modifications as an effective excpients in tablet formulation technology containing lattice established API and also dry plant extract].
    Zgoda MM, Nachajski MJ, Kołodziejczyk MK.
    Polim Med; 2009 Sep; 39(1):17-30. PubMed ID: 19580170
    [Abstract] [Full Text] [Related]

  • 23. Flow, packing and compaction properties of novel coprocessed multifunctional directly compressible excipients prepared from tapioca starch and mannitol.
    Adeoye O, Alebiowu G.
    Pharm Dev Technol; 2014 Dec; 19(8):901-10. PubMed ID: 24089696
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  • 24. Co-Processed Excipients for Dispersible Tablets-Part 1: Manufacturability.
    Bowles BJ, Dziemidowicz K, Lopez FL, Orlu M, Tuleu C, Edwards AJ, Ernest TB.
    AAPS PharmSciTech; 2018 Aug; 19(6):2598-2609. PubMed ID: 29916193
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  • 25. A review of co-processed directly compressible excipients.
    Gohel MC, Jogani PD.
    J Pharm Pharm Sci; 2005 Apr 16; 8(1):76-93. PubMed ID: 15946601
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  • 27. Understanding the Factors That Control the Quality of Mini-Tablet Compression: Flow, Particle Size, and Tooling Dimension.
    Zhao J, Yin D, Rowe J, Badawy S, Nikfar F, Pandey P.
    J Pharm Sci; 2018 Apr 16; 107(4):1204-1208. PubMed ID: 29233726
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  • 30. Tablet preformulations of indomethacin-loaded mesoporous silicon microparticles.
    Tahvanainen M, Rotko T, Mäkilä E, Santos HA, Neves D, Laaksonen T, Kallonen A, Hämäläinen K, Peura M, Serimaa R, Salonen J, Hirvonen J, Peltonen L.
    Int J Pharm; 2012 Jan 17; 422(1-2):125-31. PubMed ID: 22063301
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  • 31. Prediction of tablet characteristics from residual stress distribution estimated by the finite element method.
    Hayashi Y, Miura T, Shimada T, Onuki Y, Obata Y, Takayama K.
    J Pharm Sci; 2013 Oct 17; 102(10):3678-86. PubMed ID: 23897300
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  • 32. A microcrystalline cellulose based drug-composite formulation strategy for developing low dose drug tablets.
    Sun WJ, Sun CC.
    Int J Pharm; 2020 Jul 30; 585():119517. PubMed ID: 32526333
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  • 34. A methodological evaluation and predictive in silico investigation into the multi-functionality of arginine in directly compressed tablets.
    ElShaer A, Kaialy W, Akhtar N, Iyire A, Hussain T, Alany R, Mohammed AR.
    Eur J Pharm Biopharm; 2015 Oct 30; 96():272-81. PubMed ID: 26255158
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  • 35. Correlation between compactibility values and excipient cluster size using an in silico approach.
    Martínez L, Betz G, Villalobos R, Melgoza L, Young PM.
    Drug Dev Ind Pharm; 2013 Feb 30; 39(2):374-81. PubMed ID: 22568747
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  • 36. Suitability of various excipients as carrier and coating materials for liquisolid compacts.
    Hentzschel CM, Sakmann A, Leopold CS.
    Drug Dev Ind Pharm; 2011 Oct 30; 37(10):1200-7. PubMed ID: 21449826
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  • 38. Improved blend and tablet properties of fine pharmaceutical powders via dry particle coating.
    Huang Z, Scicolone JV, Han X, Davé RN.
    Int J Pharm; 2015 Jan 30; 478(2):447-55. PubMed ID: 25475016
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  • 40. Prediction of Air Entrapment in Tableting: An Approximate Solution.
    Zavaliangos A, Katz JM, Daurio D, Johnson M, Pirjanian A, Alvarez-Nunez F.
    J Pharm Sci; 2017 Dec 30; 106(12):3604-3612. PubMed ID: 28919383
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