We describe a method for the determination of the heating power of magnetic nanoparticle colloids which have potential for application in the remedial treatment of malignant and non-malignant tumors. The method is based upon a comparison between the heating power observed when the colloid is exposed to a radio frequency magnetic field and that which is observed using a resistive electrical heater. A new design of measurement cell has been made which has the advantages of reducing or eliminating the effects of convection, ensuring the measurement is made in a magnetic field of known uniformity and that the heat losses in the system are constant and minimized under both magnetic and Joule heating
We present the short review on Magnetic nanoparticle specifically for biomedical application. This s...
Magnetic nanoparticles show remarkable phenomena such as superparamagnetism, high field irreversibil...
Background: Magnetic hyperthermia is a recent therapy used to treat cancer. It is based on the heati...
Magnetic hyperthermia, a modality that uses radio frequency heating assisted with single-domain magn...
Purpose The localized heating of magnetic nanoparticles (MNPs) via the application of time-varying m...
The paper presents a general analytical method for evaluating the magnetic properties of colloidal ...
We investigate the magnetic nanoparticles hyperthermia in a non-adiabatic and radiating process thro...
Magnetic hyperthermia treatments utilize the heat generated by magnetic nanoparticles stimulated by ...
In the magnetic fluid hyperthermia (MFH) research field, it is usually assumed that achieving a unif...
Magnetic nanoparticles have gained significant importance in the recent past for their use in biomed...
There has been a renewed interest in magnetic hyperthermia therapies. These provide a low side effec...
A system to evaluate nanoparticles efficiency in hyperthermia applications is presented. The method ...
This paper attempts to model the heating of a tumour by superparamagnetic iron oxide nanoparticles o...
In this work we have applied theoretical calculations to new experimental measurements of the effect...
Magnetic hyperthermia is a technique that describes the heating of material through an external magn...
We present the short review on Magnetic nanoparticle specifically for biomedical application. This s...
Magnetic nanoparticles show remarkable phenomena such as superparamagnetism, high field irreversibil...
Background: Magnetic hyperthermia is a recent therapy used to treat cancer. It is based on the heati...
Magnetic hyperthermia, a modality that uses radio frequency heating assisted with single-domain magn...
Purpose The localized heating of magnetic nanoparticles (MNPs) via the application of time-varying m...
The paper presents a general analytical method for evaluating the magnetic properties of colloidal ...
We investigate the magnetic nanoparticles hyperthermia in a non-adiabatic and radiating process thro...
Magnetic hyperthermia treatments utilize the heat generated by magnetic nanoparticles stimulated by ...
In the magnetic fluid hyperthermia (MFH) research field, it is usually assumed that achieving a unif...
Magnetic nanoparticles have gained significant importance in the recent past for their use in biomed...
There has been a renewed interest in magnetic hyperthermia therapies. These provide a low side effec...
A system to evaluate nanoparticles efficiency in hyperthermia applications is presented. The method ...
This paper attempts to model the heating of a tumour by superparamagnetic iron oxide nanoparticles o...
In this work we have applied theoretical calculations to new experimental measurements of the effect...
Magnetic hyperthermia is a technique that describes the heating of material through an external magn...
We present the short review on Magnetic nanoparticle specifically for biomedical application. This s...
Magnetic nanoparticles show remarkable phenomena such as superparamagnetism, high field irreversibil...
Background: Magnetic hyperthermia is a recent therapy used to treat cancer. It is based on the heati...
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