The aim of this work is to evaluate the therapeutic performances of novel magnetic biomaterials developed for hyperthermia treatment of bone tumors in a numerical multiphysics scenario. A brief report of the state of the art of innovative and functional magnetic implants is provided. Then, the non-linear model for the heat dissipation during the hyperthermia treatment is explained and discussed. Finally, the performances of different magnetic biomaterials in treating Osteosarcoma tumor are presented and critically compared.
Numerical Comparison of Magnetic Biomaterials for Hyperthermia Applications: The Osteosarcoma Case
Lodi Matteo Bruno;Fanti A.;Mazzarella G.
2019-01-01
Abstract
The aim of this work is to evaluate the therapeutic performances of novel magnetic biomaterials developed for hyperthermia treatment of bone tumors in a numerical multiphysics scenario. A brief report of the state of the art of innovative and functional magnetic implants is provided. Then, the non-linear model for the heat dissipation during the hyperthermia treatment is explained and discussed. Finally, the performances of different magnetic biomaterials in treating Osteosarcoma tumor are presented and critically compared.
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