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Drug Delivery Volume 23, 2016 - Issue 1
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Critical Review

Recent advances of starch-based excipients used in extended-release tablets: a review

Yan HongThe State Key Laboratory of Food Science and Technology, ;School of Food Science and Technology, and ;Synergetic Innovation Center of Food Safety and Nutrition, Jiangnan University, Wuxi, Jiangsu Province, P. R. ChinaCorrespondence[email protected]
,
Guodong LiuThe State Key Laboratory of Food Science and Technology, ;School of Food Science and Technology, and ;Synergetic Innovation Center of Food Safety and Nutrition, Jiangnan University, Wuxi, Jiangsu Province, P. R. China
&
Zhengbiao GuThe State Key Laboratory of Food Science and Technology, ;School of Food Science and Technology, and ;Synergetic Innovation Center of Food Safety and Nutrition, Jiangnan University, Wuxi, Jiangsu Province, P. R. China
Pages 12-20 | Received 23 Feb 2014, Accepted 06 Apr 2014, Published online: 15 May 2014

References

  • Al-Karawi AJM, Al-Daraji AHR. (2010). Preparation and using of acrylamide grafted starch as polymer drug carrier. Carbohyd Polym 79:769–74
  • Ali TM, Hasnain A. (2011). Functional and morphological characterization of low-substituted acetylated white sorghum (Sorghum bicolor) starch. Int J Polym Anal Ch 16:187–98
  • Alias J, Goñi I, Gurruchaga M. (2007). Enzymatic and anaerobic degradation of amylose based acrylic copolymers, for use as matrices for drug release. Polym Degrad Stabil 92:658–66
  • Assaad E, Mateescu MA. (2010). The influence of protonation ratio on properties of carboxymethyl starch excipient at various substitution degrees: structural insights and drug release kinetics. Int J Pharm 394:75–84
  • Assaad E, Wang YJ, Zhu XX, Mateescu MA. (2011). Polyelectrolyte complex of carboxymethyl starch and chitosan as drug carrier for oral administration. Carbohyd Polym 84:1399–407
  • Bhandari PN, Hanna MA. (2011). Continuous solvent less extrusion process for producing sodium carboxymethyl starch suitable for disintegrant applications in solid dosage forms. Ind Eng Chem Res 50:12784–9
  • Cai L, Shi Y-C. (2010). Structure and digestibility of crystalline short-chain amylose from debranched waxy wheat, waxy maize, and waxy potato starches. Carbohyd Polym 79:1117–23
  • Cai L, Shi Y-C, Rong L, Hsiao BS. (2010). Debranching and crystallization of waxy maize starch in relation to enzyme digestibility. Carbohyd Polym 81:385–93
  • Casas M, Ferrero C, De Paz MV, Jiménez-Castellanos MR. (2009). Synthesis and characterization of new copolymers of ethyl methacrylate grafted on tapioca starch as novel excipients for direct compression matrix tablets. Eur Polym J 45:1765–76
  • Castro JV, Ward RM, Gilbert RG, Fitzgerald MA. (2005). Measurement of the molecular weight distribution of debranched starch. Biomacromolecules 6:2260–70
  • Chauve G, Ravenelle F, Marchessault RH. (2007). Comparative imaging of a slow-release starch excipient tablet: evidence of membrane formation. Carbohyd Polym 70:61–7
  • Chuenkamol B, Puttanlek C, Rungsardthong V, Uttapap D. (2007). Characterization of low-substituted hydroxypropylated canna starch. Food Hydrocolloid 21:1123–32
  • Dumoulin Y, Alex S, Szabo P. (1998). Cross-linked amylose as matrix for drug controlled release. X-ray and FT-IR structural analysis. Carbohyd Polym 37:361–70
  • Eid M. (2008). In vitro release studies of vitamin B-12 from poly N-vinyl pyrrolidone/starch hydrogels grafted with acrylic acid synthesized by gamma radiation. Nucl Instrum Meth B 266:5020–6
  • Fares MM, El-Faqeeh AS, Osman ME. (2003). Graft copolymerization onto starch–I. Synthesis and optimization of starch grafted with N-tert-butylacrylamide copolymer and its hydrogels. J Polym Res 10:119–25
  • Geresh S, Gdalevsky GY, Gilboa L, et al. (2004). Bioadhesive grafted starch copolymers as platforms for peroral drug delivery: a study of theophylline release. J Control Release 94:391–9
  • Han F, Liu M, Gong H, et al. (2012). Synthesis, characterization and functional properties of low substituted acetylated corn starch. Int J Biol Macromol 50:1026–34
  • Ispas-Szabo P, Ravenelle F, Hassan I, et al. (2000). Structure-properties relationship in cross-linked high-amylose starch for use in controlled drug release. Carbohyd Res 323:163–75
  • Korhonen O, Kanerva H, Vidgren M, et al. (2004). Evaluation of novel starch acetate-diltiazem controlled release tablets in healthy human volunteers. J Control Release 95:515–20
  • Kwon K, Auh JH, Kim JW, et al. (1997). Physicochemical properties and functionality of highly carboxymethylated starch. Starch-Stärke 49:499–505
  • Laity PR, Cameron RE. (2010). Synchrotron X-ray microtomographic study of tablet swelling. Eur J Pharm Biopharm 75:263–76
  • Laity PR, Mantle MD, Gladden LF, Cameron RE. (2010). Magnetic resonance imaging and X-ray microtomography studies of a gel-forming tablet formulation. Eur J Pharm Biopharm 74:109–19
  • Lemieux M, Gosselin P, Mateescu MA. (2009). Carboxymethyl high amylose starch as excipient for controlled drug release: mechanistic study and the influence of degree of substitution. Int J Pharm 382:172–82
  • Lenaerts V, Dumoulin Y, Mateescu MA. (1991). Controlled release of theophylline from CLA tablets. J Control Release 15:39–46
  • Lenaerts V, Moussa I, Dumoulin Y, et al. (1998). Cross-linked high amylose starch for controlled release of drugs: recent advances. J Control Release 53:225–34
  • Liu G, Hong Y, Gu Z. (2013). Evaluation of amorphous debranched starch as extended-release matrices in tablets. Carbohyd Polym 98:995–1001
  • Liu YM, Xu GY, He L, et al. (2003). The position investigation of the substituted hydroxyethyl groups of hydroxyethyl starch. Chinese J Anal Chem 31:271–6
  • Marinich JA, Ferrero C, Jimenez-Castellanos MR. (2009). Graft copolymers of ethyl methacrylate on waxy maize starch derivatives as novel excipients for matrix tablets: physicochemical and technological characterisation. Eur J Pharm Biopharm 72:138–47
  • Marinich JA, Ferrero C, Jimenez-Castellanos MR. (2012). Graft copolymers of ethyl methacrylate on waxy maize starch derivatives as novel excipients for matrix tablets: drug release and fronts movement kinetics. Eur J Pharm Biopharm 80:674–81
  • Marsh RDL, Blanshard JMV. (1988). The application of polymer crystal growth theory to the kinetics of formation of the B-amylose polymorph in a 50% wheat-starch gel. Carbohyd Polym 9:301–17
  • Nabais T, Brouillet F, Kyriacos S, et al. (2007). High-amylose carboxymethyl starch matrices for oral sustained drug-release: in vitro and in vivo evaluation. Eur J Pharm Biopharm 65:371–8
  • Ochubiojo EM, Rodrigues A. (2012). Starch: from food to medicine. In: Valdez B, Schorr M, Zlatev R, eds. Scientific, health and social aspects of the food industry. Rijeka: InTech, 355–80
  • Onofre F, Wang Y-J, Mauromoustakos A. (2009). Effects of structure and modification on sustained release properties of starches. Carbohyd Polym 76:541–7
  • Park DP, Sung JH, Choi HJ, Jhon MS. (2004). Electroresponsive characteristics of highly substituted phosphate starch. J Mater Sci 39:6083–6
  • Pohja S, Suihko E, Vidgren M, et al. (2004). Starch acetate as a tablet matrix for sustained drug release. J Control Release 94:293–302
  • Prado HJ, Matulewicz MC, Bonelli PR, Cukierman AL. (2009). Preparation and characterization of a novel starch-based interpolyelectrolyte complex as matrix for controlled drug release. Carbohydr Res 344:1325–31
  • Qiu Y, Park K. (2001). Environment-sensitive hydrogels for drug delivery. Adv Drug Deliver Rev 53:321–39
  • Rahmouni M, Chouinard F, Nekka F, et al. (2001). Enzymatic degradation of cross-linked high amylose starch tablets and its effect on in vitro release of sodium diclofenac. Eur J Pharm Biopharm 51:191–8
  • Silva I, Gurruchaga M, Goni I. (2011). Drug release from microstructured grafted starch monolithic tablets. Starch-starke 63:808–19
  • Singh AV, Nath LK. (2012a). Synthesis and evaluation of physicochemical properties of cross-linked sago starch. Int J Biol Macromol 50:14–18
  • Singh AV, Nath LK. (2012b). Synthesis, characterization, and compatibility study of acetylated starch with lamivudine. J Therm Anal Calorim 108:307–13
  • Singh AV, Nath LK, Guha M. (2011). Synthesis and characterization of highly substituted acetylated moth bean starch. J Polym Mater 28:275–83
  • Tako M. (1996). Molecular Origin for the Thermal Stability of Waxy – rice (Kogane) Starch. Starch-Stärke 48:414–17
  • Tarvainen M, Sutinen R, Peltonen S, et al. (2002). Starch acetate – a novel film-forming polymer for pharmaceutical coatings. J Pharm Sci 91:282–9
  • Tatongjai J, Lumdubwong N. (2010). Physicochemical properties and textile utilization of low- and moderate-substituted carboxymethyl rice starches with various amylose content. Carbohyd Polym 81:377–84
  • Thérien-Aubin H, Zhu X. (2009). NMR spectroscopy and imaging studies of pharmaceutical tablets made of starch. Carbohyd Polym 75:369–79
  • Thérien-Aubin H, Zhu X, Ravenelle FO, Marchessault RH. (2008). Membrane formation and drug loading effects in high amylose starch tablets studied by NMR imaging. Biomacromolecules 9:1248–54
  • Tuovinen L, Peltonen S, Järvinen K. (2003). Drug release from starch-acetate films. J Control Release 91:345–54
  • Wang Y, Ravenelle F, Zhu X. (2010). NMR imaging study of cross-linked high-amylose starch tablets – the effect of drug loading. Can J Chem 88:202–7
  • Wierik GHPT, Eissens AC, Bergsma J. (1997a). A new generation of starch products as excipient in pharmaceutical tablets. II. High surface area retrograded pregelatinized potato starch products in sustained-release tablets. J Control Release 45:25–33
  • Wierik GHPT, Eissens AC, Bergsma J. (1997b). A new generation starch product as excipient in pharmaceutical tablets III. Parameters affecting controlled drug release from tablets based on high surface area retrograded pregelatinized potato starch. Int J Pharm 157:181–7
  • Yoon HS, Lee JH, Lim ST. (2009). Utilization of retrograded waxy maize starch gels as tablet matrix for controlled release of theophylline. Carbohyd Polym 76:449–53
  • Zhou X, Lim S-T. (2012). Pasting viscosity and in vitro digestibility of retrograded waxy and normal corn starch powders. Carbohyd Polym 87:235–9

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