Microwave applicator for endometrial ablation
First Claim
1. A microwave applicator for applying electromagnetic radiation at microwave frequency, the applicator comprising:
- a waveguide with an outer waveguide wall enclosing dielectric material which extends beyond an output end of the waveguide wall to radiate microwave energy; and
a coaxial input comprising an inner conductor and outer conductive sleeve surrounding said inner conductor for inputting a microwave signal of predetermined frequency at an input end of the waveguide, wherein the inner conductor extends from the outer conductive sleeve longitudinally within the waveguide wall into the dielectric material and terminates at a free end thereof within the dielectric material, and a lateral conductor is connected to, and extends laterally from, the inner conductor at a point within the dielectric material spaced a predetermined distance away from said free end so that the current flow in said inner conductor and lateral conductor launch microwaves in a fundamental mode within the dielectric material that travel to the output end of the waveguide.
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Accused Products
Abstract
A microwave applicator for applying electromagnetic radiation at microwave frequency includes a coaxial input for a microwave signal input and a waveguide for receiving and propagating the microwave signal input. Dielectric material is positioned within the waveguide and extends beyond the waveguide to form an antenna for radiating microwave energy. The coaxial input has direct in-line transition to the dielectric-filled waveguide. Preferably, this direct in-line transition is achieved by the central conductor of the coaxial input extending axially centrally into the waveguide so as to excite microwaves in the waveguide. A lateral conductor extends radially from the central conductor to assist the launch of the microwaves into the waveguide. Preferably, the applicator includes a temperature sensor which is directly connected to the coaxial input.
180 Citations
17 Claims
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1. A microwave applicator for applying electromagnetic radiation at microwave frequency, the applicator comprising:
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a waveguide with an outer waveguide wall enclosing dielectric material which extends beyond an output end of the waveguide wall to radiate microwave energy; and
a coaxial input comprising an inner conductor and outer conductive sleeve surrounding said inner conductor for inputting a microwave signal of predetermined frequency at an input end of the waveguide, wherein the inner conductor extends from the outer conductive sleeve longitudinally within the waveguide wall into the dielectric material and terminates at a free end thereof within the dielectric material, and a lateral conductor is connected to, and extends laterally from, the inner conductor at a point within the dielectric material spaced a predetermined distance away from said free end so that the current flow in said inner conductor and lateral conductor launch microwaves in a fundamental mode within the dielectric material that travel to the output end of the waveguide. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A medical microwave applicator for applying electromagnetic radiation to a target mass of biological tissue at microwave frequency, the applicator comprising:
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a waveguide with an outer waveguide wall enclosing dielectric material that extends beyond an output end of the waveguide wall and is configured to radiate microwave energy; and
a coaxial input comprising an inner conductor and outer conductive sleeve surrounding said inner conductor configured to input a microwave signal at an input end of the waveguide that is of a frequency that will cause emitted microwave energy to be absorbed by the target mass of tissue, wherein the inner conductor extends from the outer conductive sleeve longitudinally within the waveguide wall into the dielectric material and terminates at a free end thereof within the dielectric material, and a lateral conductor is connected to, and extends laterally from, the inner conductor at a point within the dielectric material spaced a predetermined distance away from said free end so that the current flow in said inner conductor and lateral conductor launch microwaves in a fundamental mode within the dielectric material that travel to the output end of the waveguide. - View Dependent Claims (13)
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14. A method for ablating biological tissue in a body, the method including the steps of:
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providing a microwave applicator comprising a waveguide with an outer waveguide wall enclosing dielectric material that extends beyond an output end of the waveguide wall and is configured to radiate microwave energy, and a coaxial input comprising an inner conductor and outer conductive sleeve surrounding the inner conductor for inputting a microwave signal of predetermined frequency at an input end of the waveguide, wherein the inner conductor extends from the outer conductive sleeve longitudinally within the waveguide wall into the dielectric material and terminates at a free end thereof within the dielectric material, and a lateral conductor is connected to, and extends laterally from, the inner conductor at a point within the dielectric material spaced a predetermined distance away from the free end so that the current flow in the inner conductor and lateral conductor launch microwaves in a fundamental mode within the dielectric material to the output end of the waveguide;
positioning the applicator in sufficiently close proximity to a target biological tissue mass to cause the tissue mass to absorb microwave energy emitted from the applicator; and
causing the applicator to emit electromagnetic radiation at a predetermined microwave frequency that will cause the target tissue mass to absorb the microwave energy. - View Dependent Claims (15, 16, 17)
the step of inserting the applicator includes positioning the applicator in sufficiently close proximity to an endometrium to cause endometrial tissue of the endometrium to absorb the microwave energy; and
the step of causing the applicator to emit includes causing the applicator to emit radiation at a microwave frequency that will cause endometrial tissue to ablate.
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17. The method of claim 16 in which the step of causing the applicator to emit includes the step of causing the applicator to emit microwave radiation at 8-12 GHz.
Specification