Background: Hyperthermia is an adjuvant oncologic thermal therapy. In the case of deep-seated bone cancers, the interstitial hyperthermia treatment can be performed using thermo-seeds, implanted biomaterial components that are able to convert external electromagnetic power into thermal one. Several magnetic biomaterials have been synthesized for thermal treatments of cancer. However, less attention has been paid to the modeling description of the therapy, especially when the bio-heat transfer process is coupled to the electromagnetic heating. Objective: In this work, a comparison between the available analytical and numerical models is presented. Methods: A non-linear multiphysics model is used to study and describe the performance of cylin...
PURPOSE: Studies of the curative effects of hyperthermia and radiation therapy on treatment of cance...
The numerical and/or analytical modeling of the temperature field developed by the magnetic systems ...
Hyperthermia, the mild elevation of temperature to 40-43°C, can induce cancer cell death and enhance...
Background: Hyperthermia is an adjuvant oncologic thermal therapy. In the case of deep-seated bone c...
This works claims to define, via numerical simulations, magnetic field parameters to perform an effe...
In this paper, proposed implants in literature are compared in terms of the ability to heat generati...
Magnetic tissue scaffolds are a promising powerful tool for performing interstitial tumor hypertherm...
Background: Magnetic hyperthermia is a recent therapy used to treat cancer. It is based on the heati...
To avoid high recurrence rate, the hyperthermia treatment (HT) of bone tumors after surgical interve...
Magnetic biomaterials are powerful multifunctional tools in theranostic. They can be remotely contro...
The aim of this work is to evaluate the therapeutic performances of novel magnetic biomaterials deve...
The effectiveness and the quality of the hyperthermia treatment of bone tumors using magnetic implan...
The application of hyperthermia to cancer treatment is studied using a novel model arising from the ...
This work deals with the non-linear and multiphysic modeling of the hyperthermia treatment of bone t...
PURPOSE: Studies of the curative effects of hyperthermia and radiation therapy on treatment of cance...
The numerical and/or analytical modeling of the temperature field developed by the magnetic systems ...
Hyperthermia, the mild elevation of temperature to 40-43°C, can induce cancer cell death and enhance...
Background: Hyperthermia is an adjuvant oncologic thermal therapy. In the case of deep-seated bone c...
This works claims to define, via numerical simulations, magnetic field parameters to perform an effe...
In this paper, proposed implants in literature are compared in terms of the ability to heat generati...
Magnetic tissue scaffolds are a promising powerful tool for performing interstitial tumor hypertherm...
Background: Magnetic hyperthermia is a recent therapy used to treat cancer. It is based on the heati...
To avoid high recurrence rate, the hyperthermia treatment (HT) of bone tumors after surgical interve...
Magnetic biomaterials are powerful multifunctional tools in theranostic. They can be remotely contro...
The aim of this work is to evaluate the therapeutic performances of novel magnetic biomaterials deve...
The effectiveness and the quality of the hyperthermia treatment of bone tumors using magnetic implan...
The application of hyperthermia to cancer treatment is studied using a novel model arising from the ...
This work deals with the non-linear and multiphysic modeling of the hyperthermia treatment of bone t...
PURPOSE: Studies of the curative effects of hyperthermia and radiation therapy on treatment of cance...
The numerical and/or analytical modeling of the temperature field developed by the magnetic systems ...
Hyperthermia, the mild elevation of temperature to 40-43°C, can induce cancer cell death and enhance...