Microwave energy-delivery device and system

What is claimed is: 1. An ablation system, comprising: a microwave ablation device having: a feedline including a distal radiating section and an outer conductor; an inner tubular member; an outer tubular member; a balun disposed on the outer conductor of the feedline; and a balun short electrically connecting the balun to the outer conductor; a temperature sensor disposed on the balun and configured to sense the temperature of the balun; a cooling system operatively coupled to the microwave ablation device and configured to provide fluid to the microwave ablation device during an ablation procedure; a hub configured to couple the cooling system to the microwave ablation device, the hub including a first port and a second port; and an energy source operatively coupled to the microwave ablation device and configured to provide microwave energy to the microwave ablation device in response to the temperature of the balun, wherein, the feedline, the inner tubular member, and the outer tubular member are arranged columinally and define a first gap between the feedline and the inner tubular member and a second gap between the inner tubular member and the outer tubular member to enable fluid flow through the ablation device. 2. The ablation system of claim 1 , wherein the first gap is in fluid communication with the first port, and the second gap is in fluid communication with the second port. 3. The ablation system of claim 1 , wherein the cooling system comprises a cooling unit operatively coupled to the microwave ablation device and configured to cool the fluid provided to the microwave ablation device. 4. The ablation system of claim 1 , further comprising a temperature sensing system operatively coupled to the microwave ablation device and configured to sense a temperature profile of tissue proximate the distal radiating section of the feedline. 5. The ablation system of claim 4 , further comprising at least one temperature sensor configured to sense a temperature of a cooling fluid in the first gap. 6. The ablation system of claim 4 , further comprising at least one temperature sensor configured to sense a temperature of a cooling fluid in the second gap. 7. The ablation system of claim 4 , wherein the microwave ablation device further comprises at least one temperature sensor operatively coupled to the microwave ablation device and configured to sense a temperature of the distal radiating section. 8. The ablation system of claim 4 , wherein the microwave ablation device further comprises at least one temperature sensor on the outer tubular member, the at least one temperature sensor being configured to sense the temperature of tissue adjacent the outer tubular member. 9. The ablation system of claim 8 , wherein the temperature sensing system is configured to receive temperature data from the at least one temperature sensor. 10. The ablation system of claim 9 , wherein the temperature data provides feedback to the energy source to control the operation of the energy source. 11. The ablation system of claim 9 , wherein the temperature sensing system is configured to compare the received temperature data to temperature profiles stored in a memory for determining whether sufficient energy has been applied to the tissue. 12. The ablation system of claim 11 , wherein the temperature sensing system is configured to store in the memory radiation patterns associated with the received temperature data, a duration of energy application, and a power setting of the energy source. 13. The ablation system of claim 8 , wherein the energy source is configured to cease application of energy when one of the sensed temperatures exceeds a respective temperature threshold. 14. An ablation system, comprising: a microwave ablation device having: a feedline having an outer conductor; a balun disposed on the outer conductor of the feedline; a balun short electrically connecting the balun to the outer conductor; and a temperature sensor disposed on the balun and configured to sense a temperature of the balun; and an energy source operatively coupled to the microwave ablation device and configured to provide energy to the microwave ablation device in response to the sensed temperature of the balun. 15. The ablation system of claim 14 , further comprising a cooling system operatively coupled to the microwave ablation device and configured to provide fluid to the microwave ablation device. 16. The ablation system of claim 14 , wherein the microwave ablation device further comprises: an inner tubular member; and an outer tubular member, wherein, the feedline, the inner tubular member, and the outer tubular member are arranged columinally and define a first gap between the feedline and the inner tubular member and a second gap between the inner tubular member and the outer tubular member to enable fluid flow through the ablation device. 17. The ablation system of claim 14 , further comprising a temperature sensing system operatively coupled to the microwave ablation device and configured to sense a temperature profile of tissue surrounding the distal radiating section of the feedline. 18. The ablation system of claim 17 , wherein the microwave ablation device further comprises at least one temperature sensor configured to sense a temperature of the distal radiating section of the feedline.