Fundamentals to apply magnetic nanoparticles for hyperthermia therapy
H Fatima, T Charinpanitkul, KS Kim - Nanomaterials, 2021 - mdpi.com
The activation of magnetic nanoparticles in hyperthermia treatment by an external
alternating magnetic field is a promising technique for targeted cancer therapy. The external …
alternating magnetic field is a promising technique for targeted cancer therapy. The external …
A review on numerical modeling for magnetic nanoparticle hyperthermia: Progress and challenges
Recent progress in nanotechnology has advanced the development of magnetic
nanoparticle (MNP) hyperthermia as a potential therapeutic platform for treating diseases …
nanoparticle (MNP) hyperthermia as a potential therapeutic platform for treating diseases …
Fundamentals and advances in magnetic hyperthermia
Nowadays, magnetic hyperthermia constitutes a complementary approach to cancer
treatment. The use of magnetic particles as heating mediators, proposed in the 1950s …
treatment. The use of magnetic particles as heating mediators, proposed in the 1950s …
On the reliable measurement of specific absorption rates and intrinsic loss parameters in magnetic hyperthermia materials
RR Wildeboer, P Southern… - Journal of Physics D …, 2014 - iopscience.iop.org
In the clinical application of magnetic hyperthermia, the heat generated by magnetic
nanoparticles in an alternating magnetic field is used as a cancer treatment. The heating …
nanoparticles in an alternating magnetic field is used as a cancer treatment. The heating …
Maximizing specific loss power for magnetic hyperthermia by hard–soft mixed ferrites
Maximized specific loss power and intrinsic loss power approaching theoretical limits for
alternating‐current (AC) magnetic‐field heating of nanoparticles are reported. This is …
alternating‐current (AC) magnetic‐field heating of nanoparticles are reported. This is …
A single picture explains diversity of hyperthermia response of magnetic nanoparticles
I Conde-Leboran, D Baldomir… - The Journal of …, 2015 - ACS Publications
Progress in the design of nanoscale magnets for localized hyperthermia cancer therapy has
been largely driven by trial-and-error approaches, for instance, by changing of the …
been largely driven by trial-and-error approaches, for instance, by changing of the …
Effects of inter-and intra-aggregate magnetic dipolar interactions on the magnetic heating efficiency of iron oxide nanoparticles
JG Ovejero, D Cabrera, J Carrey… - Physical Chemistry …, 2016 - pubs.rsc.org
Iron oxide nanoparticles have found an increasing number of biomedical applications as
sensing or trapping platforms and therapeutic and/or diagnostic agents. Most of these …
sensing or trapping platforms and therapeutic and/or diagnostic agents. Most of these …
Controlled synthesis of uniform magnetite nanocrystals with high-quality properties for biomedical applications
Uniform iron oxide magnetic nanoparticles, with sizes in the range 9–22 nm, have been
synthesized by thermal decomposition of an iron oleate complex in 1-octadecene …
synthesized by thermal decomposition of an iron oleate complex in 1-octadecene …
High therapeutic efficiency of magnetic hyperthermia in xenograft models achieved with moderate temperature dosages in the tumor area
S Kossatz, R Ludwig, H Dähring, V Ettelt… - Pharmaceutical …, 2014 - Springer
Purpose Tumor cells can be effectively inactivated by heating mediated by magnetic
nanoparticles. However, optimized nanomaterials to supply thermal stress inside the tumor …
nanoparticles. However, optimized nanomaterials to supply thermal stress inside the tumor …
Assessing the parameters modulating optical losses of iron oxide nanoparticles under near infrared irradiation
C Lozano-Pedraza, E Plaza-Mayoral, A Espinosa… - Nanoscale …, 2021 - pubs.rsc.org
Heating mediated by iron oxide nanoparticles subjected to near infrared irradiation has
recently gained lots of interest. The high optical loss values reported in combination with the …
recently gained lots of interest. The high optical loss values reported in combination with the …