Methods and devices for fluid enhanced microwave ablation therapy
First Claim
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1. A method for ablating tissue, comprising:
- delivering therapeutic energy through a microwave antenna configured to be positioned within a volume of tissue, the microwave antenna having an inner conducting element surrounded by a dielectric insulator and an outer conducting element disposed around the dielectric insulator; and
simultaneously delivering heated fluid into the volume of tissue through a plurality of fluid channels extending through the dielectric insulator that each terminate at a location proximal to a distal end of the dielectric insulator and include at least one outlet port positioned proximal to a distal end of the outer conducting element and extending through the dielectric insulator and the outer conducting element, the fluid being heated by contact with the microwave antenna.
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Abstract
Devices and methods for fluid enhanced ablation therapy using microwave antennas are described herein that provide improved heat transfer into a target volume of tissue and improved antenna cooling compared to prior art designs. In one embodiment, fluid can be introduced into a target volume of tissue along with the delivery of therapeutic energy from a microwave antenna positioned within the target volume of tissue. The fluid can become heated by cooling the microwave antenna and, if additional heating of the fluid is desired, a heating element disposed within the microwave antenna can supplementally heat the fluid prior to introduction into the target volume of tissue.
221 Citations
12 Claims
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1. A method for ablating tissue, comprising:
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delivering therapeutic energy through a microwave antenna configured to be positioned within a volume of tissue, the microwave antenna having an inner conducting element surrounded by a dielectric insulator and an outer conducting element disposed around the dielectric insulator; and simultaneously delivering heated fluid into the volume of tissue through a plurality of fluid channels extending through the dielectric insulator that each terminate at a location proximal to a distal end of the dielectric insulator and include at least one outlet port positioned proximal to a distal end of the outer conducting element and extending through the dielectric insulator and the outer conducting element, the fluid being heated by contact with the microwave antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for ablating tissue, comprising:
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delivering therapeutic energy into a volume of tissue using a microwave antenna having a hollow outer conducting element and a coaxial inner conducting element extending through the outer conducting element; cooling the microwave antenna by delivering a cryogenic gas through an inner lumen formed in the inner conducting element of the microwave antenna and venting the cryogenic gas from the inner lumen into an annular return channel positioned between the inner conducting element and the outer conducting element; delivering a fluid into the volume of tissue through an annular fluid channel formed in the microwave antenna between the inner lumen and the return channel, the fluid channel being in fluid communication with at least one outlet port formed in the outer conducting element at a distal end of the antenna; and controlling the temperature of the fluid delivered into the volume of tissue using the cooling of the cryogenic gas and a heating element disposed within the annular fluid channel. - View Dependent Claims (10, 11, 12)
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Specification