Methods and systems for use in controlling tissue ablation volume by temperature monitoring

We claim: 1. A medical device for creating regions of heated tissue using temperature to monitor a desired profile of the regions, the medical device, comprising: a shaft coupled to a handle, where the handle includes a connector for electrically coupling to an energy controller; a first temperature detecting element spaced axially and proximally along the shaft from a distal end of a bi-polar energy transfer portion; a second temperature detecting element spaced axially and proximally along the shaft from a proximal end of the bi-polar energy transfer portion; where the first and second temperature detecting elements are configured to independently and respectively provide a first and a second actual temperature measurement; and where the energy controller is configured to deliver energy to the bi-polar energy transfer portion, control delivery of the energy, and to compare at least one of the first or second actual temperature measurements to at least one associated temperature correlating to a previously measured region of heated tissue having a known profile to produce the regions of heated tissue having the desired profile; further comprising an introducer cannula having a length, where the shaft further includes a first and a second visual marker on a proximal end of the shaft adjacent to the handle, where each of the first and the second visual markers corresponds to a respective one of the first or second temperature detecting element, such that when placed within the introducer cannula, the first and the second visual markers allow determination of whether the respective one of the first or second temperature detecting element is distally adjacent to an end of the introducer cannula; and wherein the medical device is configured to create the heated tissue. 2. The medical device of claim 1 , where the shaft includes an articulating portion where the bi-polar energy transfer portion is located distally to the articulating portion. 3. The medical device of claim 1 , the shaft and the handle are configured to receive an impact force applied on the handle and transfer the impact force to a distal end of the shaft. 4. The medical device of claim 1 , where the energy controller comprises an extendable element and a portion of the shaft, where the extendable element is configured to extend axially relative to a distal end of the shaft. 5. The medical device of claim 1 , where at least one of the first or second temperature detecting elements is axially moveable along the shaft independently of the bi-polar energy transfer portion. 6. A medical system for creating regions of heated tissue from tissue using temperature to monitor a desired profile of the regions of heated tissue, the medical system comprising: an energy controller capable of controlling energy delivery in response to comparing at least one temperature measurement to at least one associated temperature, where the at least one associated temperature correlates to a previously measured region of heated tissue having a known profile; a treatment device having a shaft coupled to a handle, where the handle includes a connector for electrically coupling to the energy controller; and a shaft extending from the handle to a distal portion, an energy transfer portion for delivering the energy from a power supply to the tissue located at the distal portion; at least a first and second temperature detecting element spaced proximally from a proximal end of the energy transfer portion, each temperature sensor of the first and second temperature detecting elements configured to independently and respectively provide a first and a second actual temperature measurement to the energy controller; and wherein the medical system is configured to deliver the energy to the tissue to create the regions of heated tissue using temperature to monitor the desired profile of the regions of heated tissue. 7. The medical system of claim 6 , where the shaft includes an articulating portion. 8. The medical system of claim 6 , the shaft and the handle are configured to receive an impact force applied on the handle and transfer the impact force to a distal end of the shaft. 9. The medical system of claim 6 , where the energy controller comprises an extendable element and a portion of the shaft, where the extendable element is configured to extend axially relative to a distal end of the shaft. 10. The medical system of claim 6 , where at least one of the first or second temperature detecting elements is axially moveable along the shaft independently of the energy controller. 11. The medical system of claim 6 , further comprising an introducer cannula having a length, where the shaft further includes a first and a second visual marker on a proximal end of the shaft adjacent to the handle, where each of the first and second visual markers correspond to a respective one of the at least first and second temperature detecting elements, such that when placed within the introducer cannula, the first and second visual markers allow determination of whether the respective one of the at least first or second temperature detecting elements is distally adjacent to an end of the introducer cannula.