Practical approaches of taste masking technologies in oral solid forms

In the pharmaceutical industry, taste masking techniques are applied to prevent active pharmaceutical ingredients exhibiting a bitter and unpleasant taste. The oral administration of bitter drugs through solid dosage forms requires an acceptable degree of palatability, patient tolerance and significant therapeutic value. In the recent years, enormous progress in taste masking technologies has given rise to novel strategies such as fast dissolving dosage forms, chewable tablets and coating of molten materials. Similarly, common technologies applying double coating layers, microencapsulation or even chemical modification have been employed to improve patient compliance. This review endeavours to present the practical technologies and platforms applied for taste masking and indicate the most interesting features of each approach.

[1]  Rajeswari Challa,et al.  Cyclodextrins in drug delivery: An updated review , 2005, AAPS PharmSciTech.

[2]  F. Cui,et al.  Preparation of roxithromycin-polymeric microspheres by the emulsion solvent diffusion method for taste masking. , 2006, International journal of pharmaceutics.

[3]  S. Qi,et al.  An investigation into the interaction between taste masking fatty acid microspheres and alkaline buffer using thermal and spectroscopic analysis. , 2006, Journal of pharmaceutical sciences.

[4]  C. Andersen,et al.  The MediChew® technology platform , 2005, Expert opinion on drug delivery.

[5]  T. Nii,et al.  Encapsulation efficiency of water-soluble and insoluble drugs in liposomes prepared by the microencapsulation vesicle method. , 2005, International journal of pharmaceutics.

[6]  Sébastien Gouin,et al.  Microencapsulation: industrial appraisal of existing technologies and trends , 2004 .

[7]  J. P. Woods,et al.  In Vivo Validation of the Release Rate and Palatability of Remoxipride-Modified Release Suspension , 1993, Pharmaceutical Research.

[8]  Y. Kawashima,et al.  Optimum heat treatment conditions for masking the bitterness of the clarithromycin wax matrix. , 2003, Chemical & pharmaceutical bulletin.

[9]  S. Garg,et al.  An Update On Taste Masking Technologies For Oral Pharmaceuticals , 2002 .

[10]  R.-K. Chang,et al.  Fast-dissolving tablets , 2000 .

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

[12]  R. Kawaguchi,et al.  Ultraviolet spectroscopic estimation of microenvironments and bitter tastes of oxyphenonium bromide in cyclodextrin solutions. , 1999, Journal of pharmaceutical sciences.

[13]  R. Kawaguchi,et al.  Quantitative estimation of the bitter taste intensity of oxyphenonium bromide reduced by cyclodextrins from electromotive force measurements. , 1999, Analytical chemistry.

[14]  T. Yajima,et al.  Optimum spray congealing conditions for masking the bitter taste of clarithromycin in wax matrix. , 1999, Chemical & pharmaceutical bulletin.

[15]  H. SEAGER,et al.  Drug‐delivery Products and the Zydis Fast‐dissolving Dosage Form * , 1998, The Journal of pharmacy and pharmacology.

[16]  Allen Lv,et al.  Flavors and flavoring. , 1997 .

[17]  S. Neya,et al.  Reduction of the Bitter Taste Intensity of Propantheline Bromide by Cyclodextrins As Predicted by Surface Tension Measurements , 1996 .

[18]  L. Dangler,et al.  The efficacy of an anti-gingivitis chewing gum. , 1996, Journal of clinical periodontology.

[19]  T Niwa,et al.  Preparation of controlled-release microspheres of ibuprofen with acrylic polymers by a novel quasi-emulsion solvent diffusion method. , 1990, Journal of pharmaceutical sciences.

[20]  Y. Kawashima,et al.  Preparation of prolonged-release spherical micro-matrix of ibuprofen with acrylic polymer by the emulsion-solvent diffusion method for improving bioavailability. , 1989, Chemical & pharmaceutical bulletin.