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  • Optimization of an aqueous tablet-coating process containing carboxymethylated Cassia fistula gum.

Optimization of an aqueous tablet-coating process containing carboxymethylated Cassia fistula gum.

AAPS PharmSciTech (2012-03-01)
Parshu Ram Rai, Ashok Kumar Tiwary, Vikas Rana
ABSTRACT

The present investigation was aimed at developing and optimizing a simple aqueous tablet-coating formulation and its process. 5-Fluorouracil (5-FU) was used to ascertain the relative lipophilic/hydrophilic behavior of the coating system. Optimization was performed by evaluating the adhesive force strength and cohesive force strength of the tablet coat using a texture analyzer. The in vitro release of 5-FU was found to decrease with an increase in (tablet surface-coat) adhesive force strength. The (tablet-tablet) cohesive force strength was reduced by the addition of magnesium silicate to the coating solution. The addition of magnesium silicate (0.2% w/v) to the carboxymethyl Cassia fistula gum-chitosan (CCG-CH) coating surface significantly inhibited the release of 5-FU possibly due to an increase in the hydrophobic character of the coated tablet surface. This was possible by coating cohesive force strength reduction coating compositions (CCG-CH (70:30) and 0.3% magnesium silicate). Further, the FTIR-ATR and DSC analyses suggested the pivotal role of magnesium silicate in modifying the release of 5-FU from CCG-CH-coated tablets due to hydrogen bonding of its Si-O-Si or Mg-O groups with -OH moieties of CCG-CH.

MATERIALS
Product Number
Brand
Product Description

Supelco
Florisil® Adsorbent for Chromatography, 60-100 mesh
Supelco
Florisil® Adsorbent for Chromatography, 30-60 mesh
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Florisil®, PR grade, 60-100 mesh, coarse powder
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Florisil® PR, PR grade (analysis acc. to FDA)
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Florisil®, for the determination of hydrocarbon acc. to ISO 9377-2
Sigma-Aldrich
Florisil®, 100-200 mesh