Preparation of Magadiite-Sodium Alginate Drug Carrier Composite by Pickering-Emulsion-Templated-Encapsulation Method and Its Properties of Sustained Release Mechanism by Baker–Lonsdale and Korsmeyer–Peppas Model

In this study, the nanohybrid drug carrier were synthesized by Pickering emulsion-templated encapsulation (PETE) method to control the sustained-released properties of the nanohybrid drug carrier; magadiite-cetyltriphenyl phosphonium bromide (MAG-CTPB-KH550) and sodium alginate (NaC 6 H 7 O 6 ) was dissolved in the aqueous phase but metronidazole (C 6 H 9 N 3 O 3 ) was dissolved in the ethyl acetate (CH 3 COOC 2 H 5 ) of the oil phase; both the oil phase and the aqueous phase were mixed and dispersed to prepared organically-modified magadiite-sodium alginate (MAG–CTPB–KH550/SA) nanohybrid drug carrier. X-ray diffraction (XRD), Flourier transform infrared spectrometry (FTIR) and scanning electron microscopy (SEM) results were shown that the most of Sodium alginate (SA) were encapsulated into the MAG–CTPB–KH550 but a few of SA were intercalated into the inner space layers of MAG–CTPB–KH550, metronidazole was combined with carrier materials through physical apparent adsorption, ion exchange and electrostatic interaction. In vitro result, it was showed that the slow release was shown less than 10% content of Sodium alginate; whereas, it was reduced the initial release percentage of Metronidazole but it was extended the sustained-released time. To reach at equilibrium, the sustained-released effects of the drug carrier were prepared with 10% of Sodium Alginate for 32 h and the maximum cumulative release percentage was 93.42% for 24 h. First order model, Baker–Lonsdale model and Korsmeyer–Peppas model were fitted to study the slow-release mechanism; the correlation coefficients (R 2 ) of the three models were found over 0.9; thus, it was well described the release kinetics behavior of drug carrier composites. The slow-release mechanisms of the drug carrier were performed swelling and dissolving but the barrier effects of the lamina that were reduced the dissolution percentage of metronidazole. Graphical Abstract