References
Kaneko K, Kanada K, Ouchi K, Saito N, Ozeki T, Yuasa H, Kanaya Y. Control of drug release from granules coated with sodium alginate and calcium lactate through insoluble gel formation.J Pharm Sci Technol. Jpn. 1999;59:8–16.
Watanabe K, Yakou S, Takayama K, Machida Y, Nagai T. Drug release behaviors from hydrogel prepared with water soluble dietary fibers.J Pharm Sci Technol, Jpn. 1991;51:29–35.
Ashford M, Fell J, Atwood D, Sharma H, Woodhead P. Studies on pectin formulation for colonic drug delivery.J Control Release. 1994;30:225–232.
Hou W, Miyazaki S, Takada M. Intragastric-floating and sustained-release tablets using chitosan and chitosan hydrochloride.J Pharm Sci Technol, Jpn. 1991;51:93–99.
Kasai T, Eguchi T, Ishiwaki N, Kaneshige J, Ozeki T, Yuasa H. Application of acid-treated yeast cell wall (AYC) as a pharmaceutical additive I: AYC as a novel coating material.Int J Pharm. 2000;204:53–59.
Yuasa H, Kaneshige J, Ozeki T, Kasai T, Eguchi T, Ishiwaki N. Application of acid-treated yeast cell wall (AYC) as a pharmaceutical additive II: effects of curing on the medicine release from AYC-coated tablets.Int J Pharm. 2000;209:69–77.
Yuasa H, Kaneshige J, Ozeki T, Kasai T, Eguchi T, Ishiwaki N. Application of acid-treated yeast cell wall (AYC) as a pharmaceutical additive III: AYC aqueous coating onto granules and film formation mechanism of AYC.Int J Pharm. 2002;237:15–22.
Yuasa H, Katsuyama H, Ozeki T, Takashima Y, Okada H, Kasai T, Eguchi T, Kakiuchi H. Acid-treated yeast cell wall (AYC) as a novel binder.J Pharm Sci Technol, Jpn. 2002;62:153–160.
Ozeki T, Katsuyama H, Takashima Y, Kasai T, Eguchi T, Kakiuchi H, Yuasa H, Okada H. Acid-treated yeast cell wall (AYC) as a binder displaying function of disintegrant.AAPS PharmSciTech. 2003;4(3): article 41.
Bi Y, Yonezawa Y, Sunada H. Rapidly disintegrating tablets prepared by the wet compression method: mechanism and optimization.J Pharm Sci. 1999;88:1004–1010.
Bi Y, Sunada H, Yonezawa Y, Danjo K. Evaluation of rapidly disintegrating tablets prepared by direct compression method.Drug Dev Ind Pharm. 1999;25:571–581.
Shu T, Suzuki H, Hironaka K, Ito K. Studies of rapidly disintegrating tablets in the oral cavity using co-grinding mixtures of mannitol with crospovidone.Chem Pharm Bull. 2002;50:193–198.
Schiermeier S, Schmidt PC. Fast dispersible ibuprofen tablets.Eur J Pharm Sci. 2002;15:295–305.
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Ozeki, T., Yasuzawa, Y., Katsuyama, H. et al. Design of rapidly disintegrating oral tablets using acid-treated yeast cell wall: A technical note. AAPS PharmSciTech 4, 70 (2003). https://doi.org/10.1208/pt040470
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DOI: https://doi.org/10.1208/pt040470