Fe3O4/TiO2 core/shell magnetic nanoparticle-based photokilling of pathogenic bacteria.

AIMS

We demonstrate a photokilling approach for pathogenic bacteria using magnetic nanoparticles as photokilling nanoprobes.

MATERIALS & METHODS: The nanoprobes are composed of iron oxide/titania (Fe(3)O(4)/TiO(2)) core/shell magnetic nanoparticles. The titanium layer on the magnetic nanoprobes plays two roles: as a photokilling agent and as an affinity substrate for pathogenic bacteria. The magnetic property of the nanoprobes allows the resultant nanoprobe-target species conjugates to be readily aggregated at a small spot under external magnetic field for conducting photokilling treatment. Therefore, damage to nontarget cells can be reduced.

RESULTS

The results show that Fe(3)O(4)/TiO(2) core/shell magnetic nanoparticles do not only have the capacity to target pathogenic bacteria, including Gram-negative, Gram-positive and antibiotic-resistant bacteria, but they can also be used to effectively inhibit the cell growth of the bacteria (>99.9%) targeted by the magnetic nanoparticles under irradiation of a low-power UV lamp (λ(max) ∼306 nm, 0.412 mW/cm(2)) within 15 min.

CONCLUSION

The potential application of this approach is in the treatment of cutaneous bacterial infections.