Electric heating – Microwave heating – Waveguide applicator
Patent
1992-09-14
1994-11-29
Leung, Philip H.
Electric heating
Microwave heating
Waveguide applicator
219696, 219690, 607116, 607156, H05B 672
Patent
active
053692519
ABSTRACT:
Method and apparatus for in vivo or in vitro selective deposition of microwave power patterns in lossy dielectric materials, particularly biological tissue. Configured as a needle-like probe, a miniature coaxial cable (1) having a circumferential gap (12) in the shield (2) is wrapped with an electrically thin dielectric substrate (18). The cable center conductor (6) extends immediately past gap (12) and is shorted to cable shield (2). A thin conductive dipole resonator (21) is positioned on substrate (18) and over gap (12) to achieve inductive coupling between the cable center conductor (6) and the dipole resonator (21) through gap (12). The ends of the dipole resonator (21) are capacitively (22) loaded so as to make the current on resonator (37) more uniform and to greatly reduce and stabilize the resonant frequency to be essentially insensitive to the dielectric properties of the surrounding material. A thin metal strip (27) is positioned on first superstrate (23) over and parallel to resonator (21), to diminish the hot spot near feed gap (12) and to make coupling to the surrounding lossy material (7) along the length of resonator (21) more uniform. Second superstrate (33), which could be a dielectric catheter, covers the entire probe assembly (30).
REFERENCES:
patent: 4612940 (1986-09-01), Kasevich et al.
patent: 4700716 (1987-10-01), Kasevich et al.
patent: 4841988 (1989-06-01), Fetter et al.
patent: 4945912 (1990-08-01), Langberg
patent: 5026959 (1991-06-01), Ito et al.
patent: 5234004 (1993-08-01), Hascoet et al.
Ryan, T. P., "Techniques for Heating Brain Tumors with Implanted Microwave Antennas," 1991 IEEE MIT-S Digest, pp. 791-794.
Hurter, W., et al., "A Dipole Antenna for Interstitial Microwave Hyperthermia", IEEE Trans. MIT-39(6), Jun. 1991 pp. 1048-1054.
Tumeh, A. M. & M. F. Iskander, "Performance Comparison of Available Interstitial Antennas for Microwave Hyperthermia," IEEE Trans. Mtt-37(7), 1989 pp. 1126-1133.
Iskander, M. F. et al., "Evaluation and Optimization of the Electromagnetic Performance of Interstitial Antennas for Hyperthermia," Inst. J. Radiation Oncology Biol. Phys., 18, 1990, pp. 895-902.
King Karl V.
King Ray J.
KDC Technology Corp.
Leung Philip H.
Sartorio Henry P.
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