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Andocs, G., Meggyeshazi, N., Balogh, L., Spisak, S., Maros, M.E., Balla, P., Kiszner, G., Teleki, I., Kovago, Cs. and Krenacs, T. (2014) Upregulation of Heat Shock Proteins and the Promotion of Damage-Associated Molecular Pattern Signals in a Colorectal Cancer Model by Modualted Electrohyperthermia. Cell Stress and Chaperones, 20, 37-46.
https://doi.org/10.1007/s12192-014-0523-6
has been cited by the following article:
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TITLE:
Hyperthermia Dosing and Depth of Effect
AUTHORS:
Oliver Szasz, Gyula Peter Szigeti, Tamas Vancsik, Andras Szasz
KEYWORDS:
Oncothermia, Capacitive Coupling, Plane-Wave Matching, Current Matching, Penetration-Depth
JOURNAL NAME:
Open Journal of Biophysics,
Vol.8 No.1,
January
23,
2018
ABSTRACT: The penetration depth in the electromagnetic heating could be a crucial factor of its application, when the deep heating is the goal. The capacitive coupling is one of the most popular heating techniques in radiofrequency (RF) heating applications. The matching of the target defines the penetration possibilities. The current matched solution has deeper mathematically defined penetration in RF region than the capacitive plane-wave solution. The same power of application request high voltage with relatively low current for plane-wave inducing, while in current matching it has low voltage with high current. The effective depth of the action in the two solutions do not identical, the penetration defined by the intensity of 1/e portion of the incident beam is higher in the current-matched techniques.
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