Formulation and characterization of taste masked ondansetron-magnesium aluminum silicate adsorption systems.

CONTEXT: Taste masking greatly influences the acceptability of bitter tasting formulation; moreover, it governs the commercial and therapeutic success of drug products. OBJECTIVE: This work is directed toward masking the bitter taste of ondansetron HCl (ONS) utilizing the excipient, which can delay the reach of drug to the taste buds. MATERIAL AND METHODS: Magnesium aluminum silicate (Veegum F), a clay material having capability to adsorb the drugs onto it, was used. The adsorption systems of ONS with Veegum were obtained by dynamic adsorption technique and examined by scanning electron microscopy, differential scanning calorimetry, Fourier transform infrared (FTIR) spectroscopy, and X-ray diffraction (XRD) for morphology, thermal behavior, and interactions. The taste assessment of prepared systems was done by in vitro method based on drug release. RESULTS: The molecular interaction between ONS and Veegum in the system was revealed by FTIR spectroscopy. A change in thermal behavior of the system was observed owing to interaction or replacement of the cationic groups of Veegum with that of ONS. XRD studies revealed that the prepared system was having lower crystallinity as compared to ONS. The in vitro drug release study showed that ONS release from the system was relatively slow in basic environment than the acidic one. DISCUSSION: Adsorption of ONS on the surface of Veegum was mainly due to electrostatic interactions and hydrogen bonding. CONCLUSION: The experimental results reveal the successful intercalation of ONS into the space available between the layers of Veegum. Furthermore, this resulted in a control on drug release in salivary pH resulting in a concentration lower than bitterness threshold.

Formulation and evaluation of lipid based taste masked granules of ondansetron HCl.

INTRODUCTION AND AIM: Various taste masking approaches comprising the excipients which delay the reach of the drug to taste buds are reported. Lipidic substances can act as release retarding agent and provides a matrix base responsible for suppressing the bitter taste of drug. This work was aimed to study the influence of different proportions of a lipid carrier on the inhibition of bitterness of the drug vis-a-vis in vitro release of drug from the granules. METHODS: The lipid-matrix granules of ondansetron HCl with Geleol pellets (glycerol monostearate) were obtained by manual hot melt fusion technique. The prepared granules were characterized by SEM, DSC and XRD. The taste assessment of prepared granules was done by in vitro method based on drug release. RESULTS: Distribution of drug inside the lipid-matrix granules was not properly analyzed by DSC and XRD, moreover these studies revealed no interaction between the drug and lipid. The dissolution tests displayed the significant retardation of drug release from the granules compared to pure drug and additionally indicated the attainment of matrix system via appearance of unbroken granules during in vitro testing. Higuchi relationship for drug release was obtained by drug release kinetics, which also revealed the functioning drug release mechanism, as diffusion controlled but the addition of hydrophilic substance (Cab-o-sil) has changed the mechanism of drug release. CONCLUSION: The proportions of Geleol and Cab-o-sil taken in granules had affected the dissolution profile. Higher amount of GE resulted in high taste masking ability.