Abstract: A microwave catheter system used for heating arterial plaque and including a catheter member adapted for positioning in the artery and an inflatable balloon supported at the distal end of the catheter member. Microwave energy is coupled by means of a transmission line to an antenna means. An optic fiber extends through the catheter member and may be used for temperature sensing or other purposes. A channel is provided through the catheter member for coupling a fluid to the balloon for inflation thereof.
Type:
Grant
Filed:
July 9, 1990
Date of Patent:
October 15, 1991
Assignee:
Kasevich Associates, Inc.
Inventors:
Raymond S. Kasevich, James F. McQueeney, Ronald H. Crooker
Abstract: A microwave collinear antenna array applicator for in situ or in vivo treatment of tumors and/or other materials by hyperthermia is disclosed. The array consists of a plurality of harmonically related resonant coaxial antenna elements connected electrically in series to provide uniform heating along the entire length of the array. At the distal end of the array, a resistor may be provided at the inner conductor for steering the heating pattern. At the proximal end of the array, an impedance matching dielectric structure is provided to enable maximum power transfer to the array and to minimize stray leakage currents along the outside of the coaxial transmission line. The array may be made longer or shorter without changing frequency and therefore, depth of penetration by simply adding or subtracting half-wave resonant elements or sections of coaxial transmission line. A lossy sleeve member may be provided around the applicator to provide a localized source of heat.
Type:
Grant
Filed:
September 24, 1987
Date of Patent:
October 11, 1988
Assignee:
Kasevich Associates, Inc.
Inventors:
Raymond S. Kasevich, James F. McQueeney, Ronald H. Crooker
Abstract: A microwave collinear antenna array applicator for in situ or in vivo treatment of tumors and/or other materials by hyperthermia is disclosed. The array consists of a plurality of harmonically related resonant coaxial antenna elements connected electrically in series to provide uniform heating along the entire length of the array. At the distal end of the array, a resistor may be provided at the inner conductor for steering the heating pattern. At the proximal end of the array, an impedance matching dielectric structure is provided to enable maximum power transfer to the array and to minimize stray leakage currents along the outside of the coaxial transmission line. The array may be made longer or shorter without changing frequency and therefore depth of penetration by simply adding or subtracting half-wave resonant elements or sections of coaxial transmission line. A lossy sleeve member may be provided around the applicator to provide a localized source of heat.
Type:
Grant
Filed:
February 27, 1986
Date of Patent:
October 20, 1987
Assignee:
Kasevich Associates, Inc.
Inventors:
Raymond S. Kasevich, James F. McQueeney, Ronald H. Crooker