Abstract
The aim of this research was to investigate the binding properties of sodium carboxymethylcellulose (NaCMCu) as polycounterions on mixed micelles of drug surfactants. Mixed micellization behavior of cetirizine hydrochloride (CTZ) and sodium dodecyl sulphate (SDS) was investigated in the absence and presence of NaCMCu using electrical conductivity, surface tension, fluorescence measurements, dynamic light scattering and UV measurements. The critical micelle concentration (CMC) in the aqueous and NaCMCu medium of CTZ + SDS mixed micelle was lower than the single micelle of CTZ and SDS. The presence of electrostatic interaction between NaCMCu and CTZ + SDS could increase the stability of mixed micelle from αSDS 1.0–0.0. The results showed that CTZ + SDS monomers could bind to the NaCMCu chains and form free mixed micelles in the solution, whereas no SDS / NaCMCu micelle-like complexes were found due to repulsive interaction. NaCMCu significantly decreased the CMC of CTZ. The values of counterion binding (B) from Corrin–Harkins approach and binding constant (Kb) indicated that the CTZ micelles bound to electrostatic interaction by –COO¯ ions of NaCMCu. UV absorbance data given a significant parameter, mean ion occupancy per micelle (i0) which estimated the occupancy per micelle of polycounterions for αSDS 1.0–0.0. However, the turbidity data and micellar size showed that the amount of NaCMCu increased, and the mixed micellar size also increased. Eventually, this system demonstrated that polyelectrolyte was used as an organic counterion to improve the micellar properties of amphiphilic drugs for the formulation of pharmaceutical medicinal products.
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