Energized corers with powered conveying

What is claimed is: 1 . An electrosurgical device comprising: an elongated body extending from a proximal portion to a distal portion and defining an internal passageway configured to convey tissue from the distal portion to the proximal portion; a coring electrode at the distal portion of the elongated body, wherein the coring electrode is positioned at an opening to the internal passageway at the distal end of the elongated body, the opening having a diameter generally equivalent to a diameter of the internal passageway, and wherein the coring electrode is configured to deliver electromagnetic energy to adjacent tissue to cut a volume of the tissue as the tissue is conveyed into the internal passageway; a powered conveyance mechanism including an auger and a helical blade configured to rotate relative to each other in opposing directions within the internal passageway to create a shearing force so as to further cut the volume of the tissue and convey the volume of the tissue proximally within the internal passageway; and an internal electrode positioned within the internal passageway and distal to the powered conveyance mechanism, the internal electrode coupled to at least two points of the internal passageway so as to extend across the internal passageway transverse to a longitudinal axis of the elongated body, the internal electrode configured to deliver electromagnetic energy to the volume of the tissue to further cut the volume of the tissue. 2 . The electrosurgical device of claim 1 , wherein the helical blade is positioned over and coaxially aligned with the auger. 3 . The electrosurgical device of claim 2 , wherein the auger comprises a helical shape that defines one or more flutes or channels for conveying the volume of the tissue proximally along the internal passageway. 4 . The electrosurgical device of claim 2 , wherein the auger defines a fluid passageway configured to deliver a fluid to one or more points along the auger to help lubricate or cool the cutting operation between the auger and the helical blade. 5 . The electrosurgical device of claim 1 , wherein the coring electrode is configured to operate in a monopolar configuration to cut the volume of the tissue as the tissue is conveyed into the internal passageway. 6 . The electrosurgical device of claim 1 , further comprising an external or second internal electrode, wherein the coring electrode is configured to operate in a monopolar configuration, or operate in a bipolar configuration with the external or second internal electrode, to cut or ablate soft tissue. 7 . The electrosurgical device of claim 6 , wherein the second internal electrode comprises the helical blade. 8 . The electrosurgical device of claim 1 , wherein the coring electrode is longitudinally offset from a distal end of the elongated body so that a distal most surface of the electrosurgical device is not defined by the coring electrode. 9 . The electrosurgical device of claim 1 , wherein the internal electrode comprises a plurality of internal electrodes configured to operate in a bipolar configuration relative to each other to deliver electromagnetic energy to reduce the size of the volume of the tissue conveyed into the internal passageway. 10 . The electrosurgical device of claim 1 , wherein the internal electrode comprises a plurality of intersecting cross members. 11 . The electrosurgical device of claim 1 , wherein the internal electrode comprises a plurality of internal electrodes, wherein each of the plurality of internal electrodes at least partially dissects the internal passageway, wherein the plurality of internal electrodes each define a smaller opening compared to the coring electrode, and wherein the plurality of internal electrodes are configured to operate in a bipolar configuration relative to each other to deliver electromagnetic energy to further cut the volume of the tissue conveyed into the internal passageway. 12 . The electrosurgical device of claim 11 , wherein the plurality of internal electrodes are supported by a dielectric support member that spans at least a portion of the internal passageway. 13 . The electrosurgical device of claim 12 , wherein the helical blade is configured to rotate relative to the dielectric support member to create a shearing force against the dielectric support member that further cuts the volume of the tissue. 14 . The electrosurgical device of claim 1 , further comprising an external electrode at the distal portion of the elongated body and defining an outer surface of the electrosurgical device, wherein the external electrode is configured to function in a bipolar configuration relative to the coring electrode or the internal electrode. 15 . The electrosurgical device of claim 1 , further comprising a handle assembly coupled to the proximal portion of the elongated body and configured to couple to an electrosurgical power supply that delivers the electromagnetic energy to the coring electrode and the internal electrode. 16 . The electrosurgical device of claim 15 , wherein the electrosurgical device is configured to be coupled to a negative pressure source to provide suction of the volume of the tissue through the internal passageway and the powered conveyance mechanism. 17 . A method of performing electrosurgery on soft tissue comprising, delivering electromagnetic energy to adjacent tissue using a coring electrode and an internal electrode of an electrosurgical device to cut a volume of the tissue, wherein the electrosurgical device comprises an elongated body extending from a proximal portion to a distal portion and defining an internal passageway configured to convey tissue from the distal portion to the proximal portion, the coring electrode at the distal portion of the elongated body, wherein the coring electrode is positioned at an opening to the internal passageway, the opening having a diameter generally equivalent to a diameter of the internal passageway, and a powered conveyance mechanism including an auger and a helical blade positioned within the internal passageway configured to further cut the volume of the tissue and convey the volume of the tissue proximally within the internal passageway, the internal electrode positioned within the internal passageway and distal to the powered conveyance mechanism, the internal electrode coupled to at least two points of the internal passageway so as to extend across the internal passageway transverse to a longitudinal axis of the elongated body; and mechanically cutting tissue using the powered conveyance mechanism such that the auger and helical blade rotate relative to each other in opposing directions to create a shearing force that further cuts the volume of the tissue into two or more pieces. 18 . The method of claim 17 , wherein the helical blade is positioned over and coaxially aligned with the auger. 19 . The method of claim 18 , further comprising, delivering a fluid to one or more points along the auger to help lubricate or cool the cutting operation between the auger and the helical blade. 20 . An electrosurgical device comprising: an elongated body extending from a proximal portion to a distal portion and defining an internal passageway configured to convey tissue from the distal portion to the proximal portion; a coring electrode at the distal portion of the elongated body, wherein the coring electrode is positioned at an opening to the internal passageway, the opening having a diameter generally equivalent to a diameter of the