2011
DOI: 10.1108/03321641111152784
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Magnetic field generating inductor for cancer hyperthermia research

Abstract: Purpose -The purpose of this paper is to continue studies previously reported with the primary focus of optimizing an inductor design. The potential benefits of hyperthermia for cancer therapy, particularly metastatic cancers of the prostate, may be realized by the use of targeted magnetic nanoparticles that are heated by alternating magnetic fields (AMFs). Design/methodology/approach -To further explore the potential of this technology, a highthroughput cell culture treatment system is needed. The AMF require… Show more

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Cited by 12 publications
(16 citation statements)
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“…A common feature among the different AMF generators that have been designed for MHT is the solenoid coil [111]. When the target region is placed within the coil, it is subjected to a uniform AMF field.…”
Section: Magnetic Hyperthermia Therapymentioning
confidence: 99%
“…A common feature among the different AMF generators that have been designed for MHT is the solenoid coil [111]. When the target region is placed within the coil, it is subjected to a uniform AMF field.…”
Section: Magnetic Hyperthermia Therapymentioning
confidence: 99%
“…Low-or radio-frequency (RF) AMFs are particularly advantageous for deep tissue applications because they provide high penetration with essentially no tissue attenuation or reflection; and, they generate less nonspecific tissue heating from interactions with tissue than do higher frequency electromagnetic (EM) fields [10,11]. Design of devices for biomedical applications employing low-frequency AMFs thus reduces to well-established engineering considerations for applicator or coil geometries to produce magnetic fields having desired flux density in a specified volume [10,[12][13][14][15]. Preclinical and clinical experiences with MFH using low-frequency AMFs have established its viability as a treatment for cancer [1][2][3][4][5][6][7][8]16,17].…”
Section: Introductionmentioning
confidence: 99%
“…Many possible inductor configurations have been considered to generate homogeneous AMFs for hyperthermia with alternating electric currents (AC) [12,13,25,33,35,44,45]. Three basic coil geometries are generally considered: (a) modified air-or solid-core solenoids, some containing additional counter-wound solenoids [13,33,35]; (b) Helmholtz pairs [12,19,44] and, (c) multiple solenoids having specific geometrical placement (e.g., Loney coils) [46,47].…”
Section: Introductionmentioning
confidence: 99%
“…Detailed descriptions of the design, build, and characterization of the modified solenoid coil have been published previously. 6,7,33 Briefly, when combined the system is capable of producing a homogeneous flux density AC magnetic field (at 150 kHz) in a cylindrical volume having a 5-cm diameter with a > 6-cm length, for peak-topeak amplitudes between 4 kA/m and 95 kA/m. The field amplitude can be dynamically controlled by adjusting the power supply output voltage.…”
Section: The Amf Systemmentioning
confidence: 99%