Development and Evaluation of Cetirizine HCl Taste-Masked Oral Disintegrating Tablets

The purpose of the current study was to mask the taste of cetirizine HCl and to incorporate the granules produced in oral disintegrating tablets (ODT). The bitter, active substance was coated by fluidized bed coating using Eudragit® RL30-D at levels between 15% and 40% w/w. The ODTs were developed by varying the ratio of superdisintegrants such as sodium croscarmellose, crospovidone grades and low substituted hydroxypropyl cellulose (L-HPC). A direct compression process was used to compress the ODTs under various compaction forces to optimize tablet robustness. The properties of the compressed tablets including porosity, hardness, friability and dissolution profiles were further investigated. The in vitro and in vivo evaluation of the tablet disintegration times showed almost identical rapid disintegration below 10 s at the optimal levels of each superdisintegrant. Finally, the taste and sensory evaluation in human volunteers demonstrated excellence in masking the bitter active and tablet palatability.

[1]  W. Habib,et al.  Fast-dissolve drug delivery systems. , 2000, Critical reviews in therapeutic drug carrier systems.

[2]  S. Watano,et al.  Granulation of core particles suitable for film coating by agitation fluidized bed II. A proposal of a rapid dissolution test for evaluation of bitter taste of ibuprofen. , 2008, Chemical & pharmaceutical bulletin.

[3]  D. Voinovich,et al.  Characterization and taste-masking evaluation of acetaminophen granules: comparison between different preparation methods in a high-shear mixer. , 2004, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[4]  H. Sugao,et al.  Taste masking of bitter drug powder without loss of bioavailability by heat treatment of wax-coated microparticles. , 1998, Journal of pharmaceutical sciences.

[5]  제이틴 데자이,et al.  Taste masking coating composition , 2001 .

[6]  Wei Wu,et al.  In vitro evaluation and pharmacokinetics in dogs of guar gum and Eudragit FS30D-coated colon-targeted pellets of indomethacin , 2007, Journal of drug targeting.

[7]  M. Al-Omran,et al.  Taste masking of diclofenac sodium using microencapsulation , 2002, Journal of microencapsulation.

[8]  Sharareh S Behzadi,et al.  Innovations in coating technology. , 2008, Recent patents on drug delivery & formulation.

[9]  R. Mashru,et al.  Design and Optimization of Mefloquine Hydrochloride Microparticles for Bitter Taste Masking , 2008, AAPS PharmSciTech.

[10]  H. Sunada,et al.  Evaluation of rapidly disintegrating tablets prepared by a direct compression method. , 1999, Drug development and industrial pharmacy.

[11]  Shagufta Khan,et al.  Taste masking of ondansetron hydrochloride by polymer carrier system and formulation of rapid-disintegrating tablets , 2007, AAPS PharmSciTech.

[12]  M. Nagarsenker,et al.  Formulation and Evaluation of Fast Dissolving Films for Delivery of Triclosan to the Oral Cavity , 2008, AAPS PharmSciTech.

[13]  V. Rana,et al.  A Novel Approach to Optimize and Formulate Fast Disintegrating Tablets for Nausea and Vomiting , 2008, AAPS PharmSciTech.

[14]  H. Lieberman,et al.  Pharmaceutical dosage forms : tablets , 1980 .

[15]  J. Newton,et al.  Determination of tablet strength by the diametral-compression test. , 1970, Journal of pharmaceutical sciences.

[16]  C. Perry,et al.  Cetirizine , 2012, Drugs.

[17]  Wei He,et al.  Design and in vitro/in vivo evaluation of multi-layer film coated pellets for omeprazole. , 2009, Chemical & pharmaceutical bulletin.

[18]  N. Shastri,et al.  Development of taste masked fast disintegrating films of levocetirizine dihydrochloride for oral use. , 2010, Current drug delivery.

[19]  P. Piccerelle,et al.  Determination of the in vitro disintegration profile of rapidly disintegrating tablets and correlation with oral disintegration. , 2005, International journal of pharmaceutics.

[20]  D. Douroumis Practical approaches of taste masking technologies in oral solid forms , 2007, Expert opinion on drug delivery.

[21]  Changquan Calvin Sun,et al.  Evaluation of the effects of tableting speed on the relationships between compaction pressure, tablet tensile strength, and tablet solid fraction. , 2005, Journal of pharmaceutical sciences.

[22]  Yao Liu,et al.  Design and evaluation of pH-independent pulsatile release pellets containing isosorbide-5-mononitrate. , 2009, Chemical & pharmaceutical bulletin.

[23]  Nikolaos A. Peppas,et al.  Surface, interfacial and molecular aspects of polymer bioadhesion on soft tissues , 1985 .

[24]  J. Wood Pharmaceutical Dosage Forms: Tablets Vol. 2. , 1982 .