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Magnetic fluid hyperthermia modeling based on phantom measurements and realistic breast model.

Magnetic fluid hyperthermia modeling based on phantom measurements and realistic breast model. Magnetic fluid hyperthermia (MFH) is a minimally invasive procedure that destroys cancer cells. It is based on a superparamagnetic heat phenomenon and consists in feeding a ferrofluid into a tumor, and then applying an external electromagnetic field, which leads to apoptosis. The strength of the magnetic field, optimal dose of the ferrofluid, the volume of the tumor and the safety standards have to be taken into consideration when MFH treatment is planned. In this study, we have presented the novel complementary investigation based both on the experiments and numerical methodology connected with female breast cancer. We have conducted experiments on simplified female breast phantoms with numerical analysis and then we transferred the results on an anatomically-like breast model. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png IEEE transactions on bio-medical engineering Pubmed

Magnetic fluid hyperthermia modeling based on phantom measurements and realistic breast model.

Miaskowski, Arkadiusz; Sawicki, Bartosz
IEEE transactions on bio-medical engineering , Volume 60 (7): -1792 – Dec 4, 2013
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Magnetic fluid hyperthermia modeling based on phantom measurements and realistic breast model.


Abstract

Magnetic fluid hyperthermia (MFH) is a minimally invasive procedure that destroys cancer cells. It is based on a superparamagnetic heat phenomenon and consists in feeding a ferrofluid into a tumor, and then applying an external electromagnetic field, which leads to apoptosis. The strength of the magnetic field, optimal dose of the ferrofluid, the volume of the tumor and the safety standards have to be taken into consideration when MFH treatment is planned. In this study, we have presented the novel complementary investigation based both on the experiments and numerical methodology connected with female breast cancer. We have conducted experiments on simplified female breast phantoms with numerical analysis and then we transferred the results on an anatomically-like breast model.

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ISSN
0018-9294
DOI
10.1109/TBME.2013.2242071
pmid
23358949

Abstract

Magnetic fluid hyperthermia (MFH) is a minimally invasive procedure that destroys cancer cells. It is based on a superparamagnetic heat phenomenon and consists in feeding a ferrofluid into a tumor, and then applying an external electromagnetic field, which leads to apoptosis. The strength of the magnetic field, optimal dose of the ferrofluid, the volume of the tumor and the safety standards have to be taken into consideration when MFH treatment is planned. In this study, we have presented the novel complementary investigation based both on the experiments and numerical methodology connected with female breast cancer. We have conducted experiments on simplified female breast phantoms with numerical analysis and then we transferred the results on an anatomically-like breast model.

Journal

IEEE transactions on bio-medical engineeringPubmed

Published: Dec 4, 2013

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