Enhancing the MRI contrast and hyperthermic properties of magnetic nanoflowers by modulating magnetisation dynamics using poly(butyl cyanoacrylate) shells: Towards multi-functional clinical carriers

Magnetic-polymeric complexes have strong potential as theranostic tools; when prepared as stable suspensions in the nano-range they are functionalisable carriers which can provide MRI (magnetic resonance imaging) tracking, static-field targeting and localised hyperthermia (on AC-field irradiation). In this work the effect of the polymer layer thickness on the MRI and hyperthermic efficacies, in clinically relevant ranges, for poly(butyl cyanoacrylate) encapsulated multi-domain γ-Fe2O3 nanoparticles was investigated for the first time. A series of nanocomposites were prepared at varying particle/polymer ratios revealing that progressively thicker polymer shells maximised the carrier potential and improved the MRI and hyperthermic efficacy due to enhancement of the Néel and partial suppression of the Brownian contribution to the dynamics of the magnetic moments. The implications for the development of multifunctional theranostic agents with optimised efficacy for AC-field triggered release are discussed. [Display omitted]