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Drug Development and Industrial Pharmacy Volume 33, 2007 - Issue 3
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Research Article

Statistical Evaluation of Influence of Xanthan Gum and Guar Gum Blends on Dipyridamole Release from Floating Matrix Tablets

Viral F. Patel Shri B. M. Shah College of Pharmaceutical Education and Research, Modasa, Gujarat, India
&
Natavarlal M. Patel Shri B. M. Shah College of Pharmaceutical Education and Research, Modasa, Gujarat, India
Pages 327-334 | Published online: 26 Sep 2008

REFERENCES

  • Altaf S. A., Yu K., Parasrampuria J., Friend D. R. Guar gum based sustained release diltiazem. Pharm. Res. 1998; 15: 1196–1201
  • Billa N., Yuen K. H. Formulation variables affecting drug release from xanthan gum matrices at laboratory scale and pilot scale. AAPS Pharma. Sci. Tech. 2000; 1: 1–8
  • Bravo S. A., Lamas M. C., Salomon C. J. In vitro studies of diclofenac sodium controlled release from biopolymeric hydrophilic matrices. J. Pharm. Pharm. Sci. 2002; 5: 213–219
  • Colombo P., Bettini R., Massimo G., Cattellani P. L., Santi P., Peppas N.A. Drug diffusion front movement is important in drug release control from swellable matrix tablets. J. Pharm. Sci. 1995; 84: 991–997
  • Cox P. J., Khan K. A., Munday D. L., Sujja-areevath J. Development and evaluation of a multiple-unit oral sustained release dosage form for S(+)-ibuprofen: preparation and release kinetics. Int. J. Pharm. 1999; 193: 73–84
  • Davis S. S. Formulation strategies for absorption windows. Drug Dis. Today 2005; 10: 249–257
  • Derendorf H., VanderMaelen C. P., Brickl R., MacGregor T. R., Eisert W. Dipyridamole bioavailability in subjects with reduced gastric acidity. J. Clin. Pharmacol. 2005; 45: 845–850
  • Durig T., Fassihi R. Guar-based monolithic matrix systems: effect of ionizable and non-ionizable substances and excipients on gel dynamics and release kinetics. J. Control. Release 2002; 80: 45–56
  • Gu C., Rao D., Gandhi R. B., Hilden J., Raghavan K. Using a novel multi compartment dissolution system to predict the effect of the gastric pH on the oral absorption of weak bases with poor intrinsic solubility. J. Pharm. Sci. 2005; 94: 199–208
  • He X., Kadomura S., Takekuma Y., Sugawara M., Miyazaki K. A new system for the prediction of drug absorption using a pH controlled Caco-2 model: Evaluation of pH dependant soluble drug absorption and pH related changes in absorption. J. Pharm. Sci. 2004; 93: 71–77
  • Kohri N., Miyata N., Takechi S., Nomura A. Evaluation of pH independent sustained release granules of dipyridamole by using gastric acidity controlled rabbits and human subjects. Int. J. Pharm. 1992; 81: 49–58
  • Korsmeyer R. W., Gunny R., Doelker E., Buri P., Peppas N. A. Mechanism of potassium chloride release from compressed hydrophilic polymeric matrices: Effect of entrapped air. J. Pharm. Sci. 1983; 72: 1189–1191
  • Kostewicz E. S., Wunderlich M., Brauns U., Becker R., Bock T., Dressman J. B. Predicting the precipitation of poorly soluble weak bases upon entry in the small intestine. J. Pharm. Pharmacol. 2004; 56: 43–51
  • Krishnaiah Y. S. R., Karthikeyan R. S., Sankar V. G., Satyanarayana V. Three layer guar gum matrix tablet formulations for oral controlled delivery of highly soluble trimetazidine dihydrochloride. J. Control. Release. 2002; 81: 45–56
  • Mitchell K., Ford J. L., Armstrong D. J., Elliott P. N. C., Rostron C., Hogan J. E. The influence of concentration on the release of drugs from gels and matrices containing Methocel®. Int J Pharm. 1993; 100: 155–163
  • Munday D. L., Cox P. J. Compressed xanthan and karaya gum matrices: hydration, erosion and drug release mechanisms. Int. J. Pharm. 2000; 203: 179–192
  • Patel V. F., Patel N. M. Intragastric floating drug delivery system of cefuroxime axetil: In vitro evaluation. AAPS Pharm. Sci. Tech. 2006; 7: E1–E7, Article 17
  • Reynolds T. D., Gehrke S. H., Hussain A. S., Shenouda L. S. Polymer erosion and drug release characterization of HPMC matrices. J. Pharm. Sci. 1998; 87: 1115–1123
  • Soppimath K. S., Kulkarni A. R., Aminabhavi T. M. Development of hollow microsphere as floating controlled release systems for cardiovascular drugs: Preparation and release characteristics. Drug Dev. Ind. Pharm. 2001; 27: 507–515
  • Sugawara M., Kadomura S., He X., Takekuma Y., Kohri N., Miyazaki K. The use of an in vitro dissolution and absorption system to evaluate oral absorption of two weak bases in pH independent controlled release formulations. Euro. J. Pharm. Sci. 2005; 26: 1–8
  • Sujja-areevath J., Munday D. L., Cox P. J., Khan K. A. Relationship between swelling, erosion and drug release in hydrophillic natural gum mini-matrix formulations. Eur. J. Pharm. Sci. 1998; 6: 207–217
  • Talukdar M. M., Vanden M. G., Augustijns P., Tjandra M. T., Verbeke N., Kinget R. In vitro evaluation of xanthan gum as a potential excipient for oral controlled release matrix tablet formulation. Int. J. Pharm. 1998; 169: 105–113
  • Talukdar M.M., Plaizier-Vercammen J. Evaluation of xanthan gum as a hydrophillic matrix for controlled release dosage forms. Drug Dev. Ind. Pharm. 1993; 19: 1037–1046
  • Vendruscolo C. W., Andreazza I. F., Ganter J. L. M. S., Ferrero C., Bresolin T. M. B. Xanthan and galactomannan (from Mimosa scabrella) matrix tablets for oral controlled delivery of theophylline. Int. J. Pharm. 2005; 296: 1–11
  • Xu G., Sunada H. Influence of formulation change on drug release kinetics from hydroxypropyl methylcellulose matrix tablets. Chem. Pharm. Bull. 1995; 43: 483–487
  • Yeole P. G., Khan S., Patel V. F. Floating drug delivery systems: Need and development. Indian J. Pharm. Sci. 2005; 67: 265–272
  • Zhou R., Moench P., Heran C., Lu X., Mathias N., Faria T. N., Wall D. A., Hussain M. A., Smith R. L., Sun D. pH dependent dissolution in vitro and absorption in vivo of weakly basic drugs: development of a canine model. Pharm. Res. 2005; 22: 188–192

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