Modelling of Magnetic Scaffolds for RF Hyperthermia of Deep-Seated Tumors

Lodi, Matteo B.
First
Writing - Original Draft Preparation
2023-01-01

Abstract

Deep seated tumors are neoplasms grown in challenging sites that call for innovative interventional strategies. Thanks to the development of magnetic nanocomposite biomaterials, multifunctional electromagnetic-responsive thermoseeds, called magnetic scaffolds, can be used as hyperthermia agents to control the local recurrence rate of deep-seated cancers through radiofrequency (RF) heating. To achieve an effective and high-quality treatment, the planning through multiphysics simulations is mandatory. A computational framework for solving the coupled electromagnetic and thermal phenomena ruling the RF heating of magnetic scaffolds will be presented and used to study different biomaterials, physiopathological scenarios and applications.
2023
9798350347029
Deep-seated Tumors; Magnetic Scaffolds; Radio Frequency Heating; Magnetic Field; Heat Transfer; Nonlinear Model; Differential Scanning Calorimetry; Electromagnetic Field; Finite Element Method, Ferromagnetic; Hysteresis Loop; Polylactic Acid; Radial Basis Function; Magnetic Susceptibility; Magnetic Particles; Maxwell’s Equations; Blood Perfusion; Fused Deposition Modeling; Working Frequency; Specific Absorption Rate; Magnetic Hyperthermia; Radiofrequency Field; Magnetic Flux; Colorectal Cancer; Relaxation Time
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