In this section, we first provide an overview of hyperthermia modeling, including the key nanoparticle, excitation source and tissue properties studied. Next, we use two recently published models ...

can predict tissue temperatures given the nanoparticle distribution. This tool has been used in several clinical feasibility studies for magnetic nanoparticle-mediated hyperthermia at the Charité ...

They call this technique nanowarming, which uses magnetic nanoparticles to rewarm the tissues. Prior to transplantation, the ...

Targeting magnetic nanoparticles to tumours then applying an alternating magnetic field can improve the contrast for infrared thermal imaging. Like inflamed tissues, malignant tumours have higher ...

Experiments with a new three-dimensional model of liver tissue find that the toxic effects of nanoparticles are reduced when compared with tests that use two-dimensional models. Cells reside in a ...

Traditional approaches rely on protective coatings that dissolve in the intestines, but these passive systems cannot actively seek out inflamed areas or penetrate tissue effectively. More ...

Artist's impression of applying a 20 nanometre multi-layered nanoparticle for therapy of deep cancer tissue. When injected in the body, the particles attach at the tumour site and assist in ...

These methods provide information on the size distribution and shape of the nanoparticles, allowing researchers to assess the uniformity of a sample. Achieving monodispersity in nanoparticle synthesis ...

Researchers at the Terasaki Institute for Biomedical Innovation have developed a novel nanoparticle-based therapy for obesity ...