Effect of bio-tissue deformation behavior due to intratumoral injection on magnetic hyperthermia

Abstract: Thermal damage of malignant tissue is generally determined not only by the characteristics of bio-tissues and nanoparticles but also the nanofluid concentration distributions due to different injection methods during magnetic hyperthermia. The latter has more advantages in improving the therapeutic effect with respect to the former since it is a determining factor for the uniformity of nanofluid concentration distribution inside the tumor region. This study investigates the effect of bio-tissue deformation due… Show more

“…[4][5][6] However, it is quite difficult to regulate the treatment temperature in the biological tissue during therapy, since the temperature field is normally affected by many factors, and the most important one is considered to be the concentration distribution of MNPs inside malignant biological tissue after magnetic nanofluid injection, which does not have accurate models. [7,8] Although the modeling of MNP concentration distribution has attracted much attention from the researchers in the last years, it is still difficult to have an accurate prediction, given its complexity and the diversity of resulting distributions. As a consequence, the MNPs were usually assumed to be uniformly distributed inside tumor tissues in the first papers in this area.…”

Extraction method of nanoparticles concentration distribution from magnetic particle image and its application in thermal damage of magnetic hyperthermia

“…[4][5][6] However, it is quite difficult to regulate the treatment temperature in the biological tissue during therapy, since the temperature field is normally affected by many factors, and the most important one is considered to be the concentration distribution of MNPs inside malignant biological tissue after magnetic nanofluid injection, which does not have accurate models. [7,8] Although the modeling of MNP concentration distribution has attracted much attention from the researchers in the last years, it is still difficult to have an accurate prediction, given its complexity and the diversity of resulting distributions. As a consequence, the MNPs were usually assumed to be uniformly distributed inside tumor tissues in the first papers in this area.…”

Extraction method of nanoparticles concentration distribution from magnetic particle image and its application in thermal damage of magnetic hyperthermia