System and method for denervation

We claim: 1. A catheter apparatus for treatment of a human patient, the catheter apparatus having a central axis and comprising: a shaping structure having a distal end and a proximal end and a length therebetween, the shaping structure being moveable between a delivery state having a first helical shape, and a deployed state having a second helical shape; a plurality of electrodes that are carried by the shaping structure, the electrodes being positioned with one electrode at the proximal end, one electrode at the distal end, and at least one electrode between the proximal end and the distal end, and wherein the electrodes are spaced apart from one another; a plurality of electric wires, wherein each of the electrodes is connected to at least one electric wire, the at least one electric wire extending via the proximal end of the shaping structure to a proximally positioned electric energy supply source; and a deployment member operably coupled to the distal end of the shaping structure and disposed parallel to the central axis, the deployment member being configured such that distal axial movement of the deployment member places the shaping structure in the delivery state, and proximal axial movement of the deployment member places the shaping structure in the deployed state; wherein, the shaping structure is formed from an elongate element configured such that the elongate element has a reverse taper with a gauge diameter that varies over the length of the elongate element such that the gauge diameter of the elongate element at the proximal end is smaller than the gauge diameter of the elongate element at the distal end, whereby the gauge diameter of the elongate element at the location of each successive electrode, moving in the distal direction, is larger than the gauge diameter of the elongate element at the location of the adjacent proximally spaced electrode. 2. The catheter apparatus of claim 1 wherein the reverse taper has an enlargement rate of between than 1.8% and 2.4% gauge diametric enlargement per mm of length. 3. The catheter apparatus of claim 2 wherein the reverse taper has an enlargement rate of between 2.0% and 2.2% gauge diametric enlargement per mm of length. 4. The catheter apparatus of claim 1 wherein the reverse taper has an overall gauge diametric enlargement of between 150% gauge diametric enlargement and 300% gauge diametric along the length of the shaping structure between the proximal end and the distal end. 5. The catheter apparatus of claim 4 , wherein the overall gauge diametric enlargement follows a monotonic increase in gauge diameter over the length of the shaping structure. 6. The catheter apparatus of claim 4 , wherein the overall gauge diametric enlargement follows a stepped increase in gauge diameter over the length of the shaping structure. 7. The catheter apparatus of claim 1 wherein the plurality of electric wires are attached to the shaping structure along the length of the shaping structure. 8. The catheter apparatus of claim 1 , wherein the at least one electric wire is two wires in number. 9. The catheter apparatus of claim 1 , wherein the at least one electrode between the proximal end and the distal end is only one in number. 10. The catheter apparatus of claim 1 wherein the deployment member comprises a tubular member defining a central lumen, and the central lumen is configured to receive a guide wire. 11. The catheter apparatus of claim 1 wherein the shaping structure has a pre-formed shape. 12. The catheter apparatus of claim 1 , wherein the electrodes are spaced evenly apart from one another.