Title :
A stable near-field antenna hyperthermia applicator for various tissue types and topologies
Author :
Ammann, M.J. ; Curto, S. ; McEvoy, P. ; See, T.S.P. ; Chen, Z.N.
Author_Institution :
Sch. of Electron.&Commun. Eng., Dublin Inst. of Technol., Dublin, Ireland
Abstract :
In an expanding number of worldwide clinical trials, conventional loop, dipole and square-patch antennas perform as external hyperthermia applicators for the adjunct treatment of cancer cells at superficial depths inside the human body. A smaller patch design in very close proximity with various phantom tissue models produces focused specific absorption rate (SAR) patterns without significant frequency detuning or impedance mismatch. Synthesized treatment conditions for different body phantoms suggest that the SAR profile of the compact antenna is stable for a range of tissue types and topologies. This paper will describe the miniaturisation and tissue coupling design characteristics for the near-field antenna applicator. Performance metrics are indicated with impedance matching, SAR and thermal profiles.
Keywords :
antennas; cancer; dosimetry; hyperthermia; radiation therapy; radiofrequency heating; cancer cells; cancer treatment; dipole antennas; focused SAR patterns; impedance matching; loop antennas; near field antenna hyperthermia applicator; phantom tissue models; specific absorption rate; square patch antennas; synthesized treatment conditions; thermal profiles; tissue topology; tissue type; Applicators; Biological system modeling; Cancer; Clinical trials; Dipole antennas; Humans; Hyperthermia; Imaging phantoms; Specific absorption rate; Topology;
Conference_Titel :
Antennas & Propagation Conference, 2009. LAPC 2009. Loughborough
Conference_Location :
Loughborough
Print_ISBN :
978-1-4244-2720-8
Electronic_ISBN :
978-1-4244-2721-5
DOI :
10.1109/LAPC.2009.5352580
