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Drug Development and Industrial Pharmacy Volume 37, 2011 - Issue 5
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Original Article

A study of the compaction process and the properties of tablets made of a new co-processed starch excipient

Jitka MužíkováDepartment of Pharmaceutical Technology, Charles University in Prague, Faculty of Pharmacy in Hradec Králové, Czech RepublicCorrespondence[email protected]
&
Irena EimerováDepartment of Pharmaceutical Technology, Charles University in Prague, Faculty of Pharmacy in Hradec Králové, Czech Republic
Pages 576-582 | Received 09 Aug 2010, Accepted 05 Oct 2010, Published online: 06 Apr 2011

References

  • Alebiowu G, Itiola OA. (2002). Compressional characteristics of native and pregelatinized forms of sorghum, plantain, and corn starches and the mechanical properties of their tablets. Drug Dev Ind Pharm, 28:663–672.
  • Belousov VA. (1976). K voprosu o vybore optimalnikh davlenii pressovania pri tabletirovanii lekarstvennykh poroshkov. Khim Farm Zh, 10:105–111.
  • Bolhuis GK, Chowhan ZT. (1996). Materials for direct compaction. In Alderborn G, Nystrőm Ch. (eds), Pharmaceutical Powder Compaction Technology. New York: Marcel Dekker, Inc., pp. 77–132.
  • Bos CE, Bolhuis GK, Van Doorne H, Lerk CF. (1987). Native starch in tablet formulations: properties on compaction. Pharm Weekbl Sci, 9:274–282.
  • Carlin BAC. (2008). Direct compression and the role of filler-binders. In: Augsburger LL, Hoag SW. (eds.) Pharmaceutical Dosage Forms: Tablets, vol. 2, 3rd edn. Informa Healthcare USA, Inc., pp. 173–216.
  • Colorcon (2010). StarCap 1500® Fir. Lit. <http://www.Colorcon.com/literature/marketing/ex/Starcap%201500/ex_td_starcap_info_ver3_020206.pdf>
  • DMV International (2000). Directly compressible Pharmatose®. Fir. Lit. <http://www.dmv-international.com/pharma/pdf/14792.pdf>.
  • Fell JT, Newton JM. (1970). Determination of tablet strength by diametral-compression test. J Pharm Sci, 59:688–691.
  • Ferrari F, Bertoni M, Bonferoni MC, Rossi S, Caramella C, Nyström C. (1996). Investigation on bonding and disintegration properties of pharmaceutical materials. Int J Pharm, 136:71–79.
  • Hsu SH, Tsai TR, Chuo WH, Cham TM. (1997). Evaluation of Era-Tab as a direct compression excipient. Drug Dev Ind Pharm, 23:711–716.
  • Jarosz PJ, Parrot EL. (1984). Effect of lubricants on tensile strength of tablets. Drug Dev Ind Pharm, 10:259–273.
  • Jivraj M, Martini LG, Thomson MC. (2000). An overview of the different excipients useful for the direct compression of tablets. Pharm Sci Technol Today, 3:58–63.
  • Mitrevej A, Sinchaipanid N, Faroongsarng D. (1996). Spray-dried rice starch: comparative evaluation of direct compression fillers. Drug Dev Ind Pharm, 22:587–594.
  • Muzíková J, Moucková E. (2006). [Studies of the properties of tablets made from directly compressible starch and its mixtures with directly compressible lactose]. Ceska Slov Farm, 55:236–241.
  • Raatikainen P, Korhonen O, Peltonen S, Parone P. (2002). Acetylation enhances the tabletting properties of starch. Drug Dev Ind Pharm, 28:165–175.
  • Ragnarsson G. (1996). Force-displacement and network measurements. In Alderborn G, Nystrőm Ch (eds), Pharmaceutical Powder Compaction Technology. New York: Marcel Dekker, Inc., pp. 77–132.
  • Rees JE, Rue PJ. (1978). Time-dependent deformation of some direct compression excipients. J Pharm Pharmacol, 30:601–607.
  • Rees JE, Tsardaka KD. (1994). Some effects of moisture on the viscoelastic behaviour of modified starch during powder compaction. Eur J Pharm Biopharm, 40:193–197.
  • Sanghvi PP, Collins ChC Shukla, AJ. (1993). Evaluation of Preflo® modified starches as new direct compression excipients tabletting characteristics. Pharm Res, 10:1597–1603.

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