Superparamagnetic Iron Oxide Nanoparticles Decorated Mesoporous Silica Nanosystem for Combined Antibiofilm Therapy.
Elena ÁlvarezManuel EstévezÁlvaro Gallo-CordovaBlanca GonzálezRafael R CastilloMaría Del Puerto MoralesMontserrat ColillaIsabel Izquierdo-BarbaMaría Vallet-RegíPublished in: Pharmaceutics (2022)
A crucial challenge to face in the treatment of biofilm-associated infection is the ability of bacteria to develop resistance to traditional antimicrobial therapies based on the administration of antibiotics alone. This study aims to apply magnetic hyperthermia together with controlled antibiotic delivery from a unique magnetic-responsive nanocarrier for a combination therapy against biofilm. The design of the nanosystem is based on antibiotic-loaded mesoporous silica nanoparticles (MSNs) externally functionalized with a thermo-responsive polymer capping layer, and decorated in the outermost surface with superparamagnetic iron oxide nanoparticles (SPIONs). The SPIONs are able to generate heat upon application of an alternating magnetic field (AMF), reaching the temperature needed to induce a change in the polymer conformation from linear to globular, therefore triggering pore uncapping and the antibiotic cargo release. The microbiological assays indicated that exposure of E. coli biofilms to 200 µg/mL of the nanosystem and the application of an AMF (202 kHz, 30 mT) decreased the number of viable bacteria by 4 log 10 units compared with the control. The results of the present study show that combined hyperthermia and antibiotic treatment is a promising approach for the effective management of biofilm-associated infections.
Keyphrases
- iron oxide nanoparticles
- combination therapy
- staphylococcus aureus
- pseudomonas aeruginosa
- candida albicans
- drug delivery
- biofilm formation
- cancer therapy
- quantum dots
- molecularly imprinted
- stem cells
- high resolution
- replacement therapy
- cystic fibrosis
- bone marrow
- high frequency
- mass spectrometry
- cell therapy
- liquid chromatography