Maghemite based silicone composite for arterial embolization hyperthermia

• Silicone magnetic composite for arterial embolization hyperthermia is elaborated.
• Composite provides the possibility for embolization of tumour blood vessels.
• Maghemite nanoparticles account for rapid heating of composite in alternating magnetic fields.
• Radiopaque property of composite is enhanced by addition of potassium iodide.

Maghemite nanoparticle based silicone composite for application in arterial embolization hyperthermia is developed. It possesses embolization ability, high heating efficiency in alternating magnetic fields and radiopaque property. The initial components of the composite are selected so that the material stays liquid for 20 min, providing the opportunity for transcatheter transportation and filling of the tumour vascular system. After this induction period the viscosity increases rapidly and soft embolus is formed which is able to occlude the tumour blood vessels. The composite is thermally stable up to 225 °C, displays rubber-elastic properties and has a thermal expansion coefficient higher than that of blood. Maghemite nanoparticles uniformly distributed in the composite provide its rapid heating (tens of °C min− 1) due to Neel magnetization relaxation. Required X-ray contrast of composite is achieved by addition of potassium iodide.

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