pH-Sensitive magnetite mesoporous silica nanocomposites for controlled drug delivery and hyperthermia

Abstract

In clinical applications, chemotherapy and hyperthermia are commonly used together. To achieve this, we synthesized multifunctional magnetite mesoporous silica nanoparticles (MMSNs) coated with a chitosan hydrogel. pH-Responsive chitosan hydrogels (cross-linked glutaraldehyde) were used to cover mesoporous silica pores. The infrared spectroscopy (FT-IR) and electron microscopy images (SEM and TEM) confirm that a hydrogel layer and a silica shell were formed. By applying alternating magnetic fields (AMF) to nanogels, heat generation (43 °C) occurred within a short time. The drug release (tamoxifen) of nanogels was studied for 72 h at different pH and temperatures. Drug release at pH 7.4/T = 37 °C (simulating physiological condition) and pH 5/T = 43 °C (pH simulating endosomes/hyperthermia) were 15 and 70%, respectively, so, drug release was increased with hyperthermia. To determine the biocompatibility of the nanogels, an MTT assay of L929 cells was performed for 24, 48 and 72 h. The results show high biocompatibility of nanogels even at high concentrations (over 80% cell viability after 72 h for all concentrations).