Monoolein cubic phase including in situ ionically gelled alginate and its salt-responsive release property

ABSTRACT

Salt-responsive monoolein (MO) cubic phase was prepared by in situ ionically gelling alginate contained in its water channels. On the TEM micrographs, bilayers, and water channels, characteristic of MO cubic phase were observed, and alginate and CaCl₂ had little effect on the structure. According to the differential scanning calorimetric thermogram, the cubic-to-hexagonal phase transition temperature of the cubic phase containing CaCl₂ solution was 46.8°C and it was much lower than that of the cubic phase containing distilled water, 60.5°C. The transition temperature was not significantly affected by alginate. The phase transition temperatures measured by the calorimetric analysis were in accordance with those determined by polarized optical microscopy. An initial burst release of dye (i.e., amaranth) was observed when the gelled alginate was not contained in the water channel of the cubic phase. A sustained release was obtained with the cubic phase containing the gelled alginate. The release of dye loaded in the cubic phase containing the gelled alginate was significantly promoted when the cubic phase came into contact with PBS (10 mM, pH 7.4), possibly because the multivalent cation (Ca²⁺) bound to alginate chains could be replaced by the monovalent cation (Na⁺).

GRAPHICAL ABSTRACT

KEYWORDS:

• Cubic phase
• ionically gelled alginate
• phase transition
• salt-responsive release