Medical system and method of use

What is claimed is: 1. A method for thermally treating tissue comprising: providing a probe body having a flow channel extending therein to an outlet in a working end; introducing a flow of a liquid media through the flow channel; applying energy to the tissue by inductively heating a portion of the probe body sufficient to vaporize the media within the flow channel causing a pressurized ejection of a vapor media from the outlet to the tissue to apply thermal energy to the tissue; and determining a vapor quality of the vapor media by measuring at least one parameter of the vapor media being ejected during the pressurized ejection of the vapor media to provide a feedback of the vapor quality. 2. The method of claim 1 wherein the media applies energy between 10 and 400,000 Joules to the tissue. 3. The method of claim 1 where introducing the flow of liquid media comprises introducing the flow of liquid media in less than 10 minutes. 4. The method of claim 1 wherein the inductively heating the portion of the probe body comprises applying an electromagnetic energy source to a coil surrounding the flow channel. 5. The method of claim 4 wherein applying the electromagnetic energy source to the coil further comprises heating a wall portion of the flow channel. 6. The method of claim 5 wherein applying the electromagnetic energy source to the coil comprises heating a flow permeable structure in the flow channel. 7. The method of claim 6 wherein the flow permeable structure in the flow channel is selected from the group of woven filaments, braided filaments, knit filaments, metal wool, a microchannel structure, a porous structure, a honeycomb structure and an open cell structure. 8. The method of claim 4 wherein the electromagnetic energy source comprises an energy source selected from the group consisting of a 10 Watt source, 50 Watt source, 100 Watt source, 200 Watt source, 300 Watt source, 400 Watt source and 500 Watt source. 9. The medical system of claim 1 , further comprising modulating at least one operating parameter based on the feedback of the vapor quality. 10. A medical system for treating tissue, comprising: a probe body having a flow channel extending therein to an outlet in a working end; a coil about at least a portion or the flow channel; an electromagnetic energy source coupled to the coil, where the electromagnetic energy source induces current in the coil causing energy delivery to a flowable media in the flow channel allowing for pressurized ejection of the heated flowable media directly onto tissue; and a sensor configured to determine a vapor quality by measuring at least one parameter of the heated flowable media being ejected to provide a feedback of the vapor quality. 11. The medical system of claim 10 further including a source of flowable media coupled to the flow channel. 12. The medical system of claim 10 wherein the electromagnetic energy source is capable of applying energy to the flowable media sufficient to cause a liquid-to-vapor phase change in at least a portion of the flowable media. 13. The medical system of claim 10 wherein the probe carries a sensor selected from the group consisting of a temperature sensor, an impedance sensor, a capacitance sensor and a pressure sensor. 14. The medical system of claim 10 wherein the probe carries a flow channel coupled to an aspiration source. 15. The medical system of claim 10 further comprising a controller capable of modulating at least one operational parameter of the source of flowable media in response to a signal from a sensor. 16. The medical system of claim 15 wherein the controller is capable of modulating a flow of the flowable media. 17. The medical system of claim 15 wherein the controller is capable of modulating a flow of the flowable media to apply between 100 and 400,000 Joules to the tissue. 18. The medical system of claim 15 wherein the flow channel includes a metal portion for contacting the flowable media. 19. The medical system of claim 18 wherein the metal portion comprises a flow permeable structure of the flow channel. 20. The medical system of claim 18 wherein the metal portion comprises at least one filament in the flow channel. 21. The medical system of claim 18 wherein the metal portion comprises a microchannel structure. 22. The medical system of claim 18 wherein the metal portion is selected from the group consisting of woven filaments, braided filaments, knit filaments, metal wool, a porous structure, a honeycomb structure and an open cell structure. 23. The medical system of claim 10 wherein the electromagnetic energy source comprises an energy supply selected from a group consisting of a 10 Watt supply, 50 Watt supply, 100 Watt supply, 200 Watt supply, 300 Watt supply, 400 Watt supply and 500 Watt supply. 24. The medical system of claim 10 wherein the electromagnetic energy source operates in the range of 50 kHz to 2 MHz. 25. The medical system of claim 10 , further comprising modulating at least one operating parameter based on the feedback of the vapor quality.