Results 31 to 40 of about 19,729 (215)

Iron Oxide Nanoparticle-Based Hyperthermia as a Treatment Option in Various Gastrointestinal Malignancies

open access: yesNanomaterials, 2021
Iron oxide nanoparticle-based hyperthermia is an emerging field in cancer treatment. The hyperthermia is primarily achieved by two differing methods: magnetic fluid hyperthermia and photothermal therapy.
Julian Palzer   +5 more
doaj   +1 more source

Polarized superlocalization in magnetic nanoparticle hyperthermia [PDF]

open access: yesJournal of Physics D: Applied Physics, 2022
Abstract Magnetic hyperthermia is an adjuvant therapy for cancer where injected magnetic nanoparticles are used to transfer energy from the time-dependent applied magnetic field into the surrounding medium. Its main importance is to be able to increase the temperature of the human body locally.
Zs Iszály   +7 more
openaire   +3 more sources

Magnetic nanoparticles hyperthermia in a non-adiabatic and radiating process

open access: yesScientific Reports, 2021
We investigate the magnetic nanoparticles hyperthermia in a non-adiabatic and radiating process through the calorimetric method. Specifically, we propose a theoretical approach to magnetic hyperthermia from a thermodynamic point of view.
C. A. M. Iglesias   +16 more
doaj   +1 more source

Magnetic Nanomaterials for Arterial Embolization and Hyperthermia of Parenchymal Organs Tumors: A Review

open access: yesNanomaterials, 2021
Magnetic hyperthermia (MH), proposed by R. K. Gilchrist in the middle of the last century as local hyperthermia, has nowadays become a recognized method for minimally invasive treatment of oncological diseases in combination with chemotherapy (ChT) and ...
Natalia E. Kazantseva   +5 more
doaj   +1 more source

MAGNETIC NANOPARTICLE HYPERTHERMIA IN CANCER TREATMENT [PDF]

open access: yesNano LIFE, 2010
The activation of magnetic nanoparticles (mNPs) by an alternating magnetic field (AMF) is currently being explored as technique for targeted therapeutic heating of tumors. Various types of superparamagnetic and ferromagnetic particles, with different coatings and targeting agents, allow for tumor site and type specificity.
Andrew J, Giustini   +5 more
openaire   +2 more sources

The Effect of Tissue-Mimicking Phantom Compressibility on Magnetic Hyperthermia

open access: yesNanomaterials, 2019
During hyperthermia, magnetite nanoparticles placed in an AC magnetic field become a source of heat. It has been shown that in fluid suspensions, magnetic particles move freely and generate heat easily.
Katarzyna Kaczmarek   +4 more
doaj   +1 more source

A Roadmap to the Standardization of In Vivo Magnetic Hyperthermia [PDF]

open access: yes, 2019
Despite the fact that magnetic hyperthermia seems to be a promising approach in cancer treatment, researchers working in this field have to face several drawbacks, because of the lack of standardization in the treatment conditions and the difficulties in measuring the biological effects.
Asín, Laura   +3 more
openaire   +3 more sources

Simulation analysis of coupled magnetic-temperature fields in magnetic fluid hyperthermia

open access: yesAIP Advances, 2019
Magnetic fluid hyperthermia (MFH) adopts the relaxation mechanism of magnetic nanoparticles to heat targeted tumors by coupling magnetic fields and temperature fields.
Yi Xu   +3 more
doaj   +1 more source

Magnetic hyperthermia of AFe2O4 (A = Fe, Mn, Co) nanoparticles prepared by Co-precipitation method

open access: yesAIP Advances, 2023
With 10 million deaths in 2020 cancer remains one of the most challenging diseases in contemporary medicine. Chemotherapy, surgery, and radiation therapy are commonly used to treat tumors.
Yashpreet Kaur   +2 more
doaj   +1 more source

Novel degradable super-paramagnetic bone cement with self-controlled hyperthermia ability

open access: yesMaterials & Design, 2022
Hyperthermia treatment with magnetic bone cement can not only realize the highly targeted treatment of the deep-seated bone tumor but also repair the weakened bone tissue. However, the potential risk of overheating limits the use of this material. Herein,
Santuan Zhao   +6 more
doaj   +1 more source

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