One-step photocatalytic synthesis of Fe3O4@polydiallyl isophthalate magnetic microspheres for magnetocaloric tumor ablation and its potential for tracing on MRI and CT

Allyl monomers that were previously considered to be difficult to polymerize are applied, and Fe3O4@polydiallyl isophthalate (Fe3O4@PDAIP) magnetic were synthesized by one-step photopolymerization. The skeleton of the microspheres is made of diallyl isophthalate (DAIP). We obtained the microspheres using the photo-click technique in a soft template with Nano-Fe3O4 evenly disseminated in hydrophobic DAIP by cation-π and polar interaction. The obtained Fe3O4@PDAIP magnetic microspheres can achieve tumor cell necrosis temperatures (41–52 °C) in an alternating magnetic field due to their inherent magnetic response. The results of in vitro CT and MR imaging indicate that the microspheres might be monitored accurately in vivo. Then the structural characteristics of the microspheres were confirmed by morphological analysis and physicochemical property analysis. Experiments in vitro and in vivo revealed that the microspheres had an anti-tumor effect and their biocompatibility satisfies the standards. The stability experiment proves that the microspheres have the potential for long-term effectiveness in vivo. It demonstrates the promise of Fe3O4@PDAIP magnetic microspheres in clinical applications.