Steerable microwave antenna systems for cardiac ablation that minimize tissue damage and blood coagulation due to conductive heating patterns
First Claim
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1. A microwave antenna assembly for cardiac ablation comprisinga microwave antenna, andan encapsulant encapsulating the microwave antenna, said encapsulant including a polymeric binder containing a finely divided material selected from the group consisting of diamond dust and sapphire dust having a high dielectric constant for minimizing the loss of microwave energy by the antenna while having a high thermal conductivity for dissipating conductive heat patterns about the antenna.
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Abstract
An antenna assembly has an energy propagating region that is encapsulated in a material having a high dielectric constant for minimizing the loss of energy while having a high thermal conductivity for dissipating conductive heat patterns about the energy propagating region.
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Citations
7 Claims
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1. A microwave antenna assembly for cardiac ablation comprising
a microwave antenna, and an encapsulant encapsulating the microwave antenna, said encapsulant including a polymeric binder containing a finely divided material selected from the group consisting of diamond dust and sapphire dust having a high dielectric constant for minimizing the loss of microwave energy by the antenna while having a high thermal conductivity for dissipating conductive heat patterns about the antenna.
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5. A steerable microwave antenna assembly for a catheter comprising
a microwave antenna, means for steering the antenna, and an encapsulant encapsulating the microwave antenna, said encapsulant including a finely divided material selected from the group consisting of diamond dust and sapphire dust having a high dielectric constant for minimizing the loss of microwave energy by the antenna while having a high thermal conductivity for dissipating conductive heat patterns about the antenna contained in a polymeric binder resin.
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6. A steerable microwave antenna assembly for a catheter comprising
a microwave antenna, a coaxial cable having a proximal region for connection to a source of energy and a distal region connected to the microwave antenna for propagating energy, the coaxial cable having an intermediate region between the distal and proximal regions that has a greater degree of flexibility than the proximal region, means for steering said antenna connected directly to the intermediate region of the coaxial cable and extending from there to a mechanism located at the proximal region of the coaxial cable, the mechanism being operative by the user to bend the intermediate region and, with it, the microwave antenna relative to the proximal region of the cable, and an encapsulant encapsulating the microwave antenna including a polymeric binder containing a finely divided material selected from the group consisting of diamond dust and sapphire dust having a high dielectric constant for minimizing the loss of microwave energy by the antenna while having a high thermal conductivity for dissipating conductive heat patterns about the antenna.
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Current AssigneeEP Technologies Incorporated (Boston Scientific Corporation)
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Original AssigneeEP Technologies Incorporated (Boston Scientific Corporation)
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InventorsEdwards, Stuart D., Jackson, Jerome, Stern, Roger A., Owens, Patrick M., Morse, Thomas M.
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Primary Examiner(s)Pellegrino, Stephen C.
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Assistant Examiner(s)PEFFLEY, MICHAEL F
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Application NumberUS08/163,371Time in Patent Office364 DaysField of Search606/32-34, 606/41, 606/45, 606/46, 607/100-102, 607/154-156US Class Current607/101CPC Class CodesA61B 17/22 Implements for squeezing-of...A61B 18/18 by applying electromagnetic...A61B 18/1815 using microwavesA61B 2018/1861 with an instrument inserted...A61N 1/05 for implantation or inserti...A61N 1/06 for high-frequency therapy
