Ethylcellulose in Organic Solution or Aqueous Dispersion Form in Designing Taste-Masked Microparticles by the Spray Drying Technique with a Model Bitter Drug: Rupatadine Fumarate

The taste of drugs is an important factor affecting pharmacotherapy effectiveness, and obtaining formulations with acceptable organoleptic properties is still an ongoing issue in pharmaceutical technology. One of the innovative methods of taste masking is preparation of microparticles by the spray d...

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Bibliographic Details
Main Authors: Katarzyna Wasilewska, Marta Szekalska, Patrycja Ciosek-Skibinska, Joanna Lenik, Anna Basa, Julia Jacyna, Michal Markuszewski, Katarzyna Winnicka
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Polymers
Subjects:
Online Access:https://www.mdpi.com/2073-4360/11/3/522
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Summary:The taste of drugs is an important factor affecting pharmacotherapy effectiveness, and obtaining formulations with acceptable organoleptic properties is still an ongoing issue in pharmaceutical technology. One of the innovative methods of taste masking is preparation of microparticles by the spray drying technique, utilizing polymers with different physicochemical properties. Rupatadine fumarate (RUP) is one of the newest antihistamines, with an innovative and multidirectional mechanism of action, and an extremely bitter taste. The aim of this work was to investigate the feasibility of utilizing organic or aqueous forms of ethylcellulose (EC) for the preparation of microparticles with RUP by the spray drying technique. Spray dried samples at different drug:polymer ratios were prepared using organic solution (Ethocel<sup>&#174;</sup>) or aqueous dispersions of EC (Surelease<sup>&#174;</sup>, Aquacoat<sup>&#174;</sup> ECD). Evaluation of the taste masking efficacy was performed in vivo in human taste panel, in vitro based on dissolution test, and by self-constructed electronic tongue. It was shown that microparticles obtained from aqueous dispersions of EC have superior pharmaceutical properties in terms of both morphology and taste masking efficacy in comparison to those obtained from organic solution.
ISSN:2073-4360