Simple models for dynamic hysteresis loops calculation: Application to hyperthermia optimization [PDF]
, 2010 To optimize the heating properties of magnetic nanoparticles (MNPs) in magnetic hyperthermia applications, it is necessary to calculate the area of their hysteresis loops in an alternating magnetic field.
Carrey, J., Mehdaoui, B., Respaud, M.
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MAGNETIC NANOPARTICLE HYPERTHERMIA IN CANCER TREATMENT [PDF]
Nano 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
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Polarized superlocalization in magnetic nanoparticle hyperthermia [PDF]
Journal 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
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Superparamagnetic Poly (3-hydroxybutyrate-co-3 hydroxyvalerate) (PHBV) nanoparticles for biomedical applications [PDF]
, 2013 Indexación: ScieloBackground: The progress in material science and the recent advances in biodegradable/biocompatible polymers and magnetic iron oxide nanoparticles have led to develop innovative diagnostic and therapeutic strategies for diseases based ...
Altbir, Dora +6 more
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Hyperthermia treatment of tumors by mesenchymal stem cell-delivered superparamagnetic iron oxide nanoparticles. [PDF]
, 2015 Magnetic hyperthermia - a potential cancer treatment in which superparamagnetic iron oxide nanoparticles (SPIONs) are made to resonantly respond to an alternating magnetic field (AMF) and thereby produce heat - is of significant current interest. We have
Janes, SM +7 more
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Overview of bladder heating technology: matching capabilities with clinical requirements. [PDF]
, 2016 Moderate temperature hyperthermia (40-45°C for 1 h) is emerging as an effective treatment to enhance best available chemotherapy strategies for bladder cancer.
Stauffer, Paul R., van Rhoon, Gerard C.
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The Effect of Tissue-Mimicking Phantom Compressibility on Magnetic Hyperthermia
Nanomaterials, 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
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High resolution system for nanoparticles hyperthermia efficiency evaluation [PDF]
, 2011 A system to evaluate nanoparticles efficiency in hyperthermia applications is presented. The method allows a direct measurement of the power dissipated by the nanoparticles through the determination of the first harmonic component of the in quadrature ...
Aroca Hernández-Ros, Claudio +3 more
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Non-calorimetric determination of absorbed power during magnetic nanoparticle based hyperthermia [PDF]
, 2018 Nanomagnetic hyperthermia (NMH) is intensively studied with the prospect of cancer therapy. A major challenge is to determine the dissipated power during in vivo conditions and conventional methods are either invasive or inaccurate.
Gresits, I. +5 more
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Novel degradable super-paramagnetic bone cement with self-controlled hyperthermia ability
Materials & 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
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