Devices and methods for cooling microwave antennas

We claim: 1. A microwave antenna assembly, comprising: a handle assembly; an outer jacket extending from the handle assembly and terminating in a distal tip; a microwave antenna at least partially disposed within the handle assembly and the outer jacket, the microwave antenna including a radiating portion disposed within the outer jacket, wherein the outer jacket and the microwave antenna are dimensioned so as to define a fluid volume surrounding at least the radiating portion of the microwave antenna; at least one inflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket; at least one outflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket; and a gasket interposed between the microwave antenna and the outer jacket at a location proximal of a distal end of the outer jacket to fluidly seal the fluid volume. 2. The microwave antenna assembly according to claim 1 , wherein the microwave antenna includes an inner conductor, an outer conductor surrounding and extending along at least a portion of a length of the inner conductor, and a dielectric interposed between the inner conductor and the outer conductor. 3. The microwave antenna assembly according to claim 1 , wherein the radiating portion is disposed adjacent the distal tip. 4. The microwave antenna assembly according to claim 3 , wherein each inflow tubing extends to a location proximate the radiating portion. 5. The microwave antenna assembly according to claim 1 , wherein the outer jacket has a fixed dimension. 6. The microwave antenna assembly according to claim 1 , wherein the distal tip is tapered to a sharpened point. 7. The microwave antenna assembly according to claim 1 , wherein a proximal end of each of the inflow tubing and the outflow tubing extends through the handle assembly. 8. The microwave antenna assembly according to claim 1 , wherein a cooling fluid is communicated to the fluid volume via the inflow tubing and communicated away from the fluid volume via the outflow tubing. 9. The microwave antenna assembly according to claim 1 , wherein the gasket is disposed at a proximal end of the fluid volume. 10. A microwave antenna assembly, comprising: a handle assembly; an outer jacket extending from the handle assembly and terminating in a distal tip; a microwave antenna at least partially disposed within the handle assembly and the outer jacket, the microwave antenna including a radiating portion disposed within the outer jacket, wherein the outer jacket and the microwave antenna are dimensioned so as to define a fluid volume surrounding at least the radiating portion of the microwave antenna; at least one inflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket for communicating a fluid into direct contact with the radiating portion of the microwave antenna; and a gasket interposed between the microwave antenna and the outer jacket at a location proximal of a distal end of the outer jacket to fluidly seal the fluid volume. 11. The microwave antenna assembly according to claim 10 , wherein the microwave antenna includes an inner conductor, an outer conductor surrounding and extending along at least a portion of a length of the inner conductor, and a dielectric interposed between the inner conductor and the outer conductor. 12. The microwave antenna assembly according to claim 10 , wherein the radiating portion is disposed adjacent the distal tip. 13. The microwave antenna assembly according to claim 12 , wherein each inflow tubing extends to a location proximate the radiating portion. 14. The microwave antenna assembly according to claim 10 , wherein the outer jacket has a fixed dimension. 15. The microwave antenna assembly according to claim 10 , further comprising at least one outflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket. 16. The microwave antenna assembly according to claim 10 , wherein the gasket is disposed at a proximal end of the fluid volume. 17. A microwave treatment system, comprising: an electrosurgical energy source; a microwave antenna assembly operatively connected to the electrosurgical energy source, the microwave antenna assembly including: a handle assembly; an outer jacket extending from the handle assembly and terminating in a distal tip; a microwave antenna at least partially disposed within the handle assembly and the outer jacket and electrically connected to the electrosurgical energy source, the microwave antenna including a radiating portion disposed within the outer jacket, wherein the outer jacket and the microwave antenna are dimensioned so as to define a fluid volume surrounding at least the radiating portion of the microwave antenna; at least one inflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket for communicating a fluid into direct contact with the radiating portion of the microwave antenna; and a gasket interposed between the microwave antenna and the outer jacket at a location proximal of a distal end of the outer jacket to fluidly seal the fluid volume. 18. The microwave treatment system according to claim 17 , wherein the microwave antenna includes an inner conductor, an outer conductor surrounding and extending along at least a portion of a length of the inner conductor, and a dielectric interposed between the inner conductor and the outer conductor. 19. The microwave treatment system according to claim 18 , wherein the radiating portion of the microwave antenna assembly is disposed adjacent the distal tip. 20. The microwave treatment system according to claim 18 , wherein each inflow tubing extends to a location proximate the radiating portion. 21. The microwave treatment system according to claim 17 , wherein the microwave antenna assembly further comprises at least one outflow tubing operatively coupled to the fluid volume defined by the microwave antenna and the outer jacket.