Thaned Pongjanyakul scite author profile

By blending chitosan (CS) and gum arabic (GA), a powerful biomaterial complex might be obtained due to the unique properties of CS and the low viscosity and good emulsifying properties of GA. The objectives of this study were to prepare and examine the properties of dispersions and films of CS and GA as a function of the mixing weight ratio, pH value and molecular weight of CS. The dispersions were characterized by turbidity, zeta potential and cytotoxicity and then the dispersions were cast into films. Physicochemical properties of the film were performed. CS-GA dispersions exhibited higher turbidity and a lower zeta potential with an increase in the GA ratio. Continuous films of the CS-GA could be formed at all ratios. CS and GA could molecularly interact via electrostatic forces and intermolecular hydrogen bonding. The CS-GA (1:0.5) films exhibited relatively low water uptake, erosion, water vapor permeability and puncture strength compared to the CS films. Furthermore, the CS-GA films demonstrated good mucoadhesive properties, allowing for adhesion to the mucosal membrane. Based on these results, it could be advantageous to use CS-GA films as film formers for the formulation of coatings and drug delivery systems.

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Alginate-magnesium aluminum silicate films: Effect of plasticizers on film properties, drug permeation and drug release from coated tablets

Pongjanyakul

Puttipipatkhachorn

2007

International Journal of Pharmaceutics

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Physicochemical characterizations and release studies of nicotine–magnesium aluminum silicate complexes

Pongjanyakul

Khunawattanakul

Puttipipatkhachorn

2009

Applied Clay Science

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Chitosan–magnesium aluminum silicate composite dispersions: Characterization of rheology, flocculate size and zeta potential

Khunawattanakul

Puttipipatkhachorn

Rades

et al. 2008

International Journal of Pharmaceutics

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