Method and apparatus for identifying middle lead in a tri-lead configuration

What is claimed is: 1. A method of operating three electrodes electrically coupled to three proximal contacts carried by three lead bodies, respectively, the electrodes adjacent tissue of a patient and including a middle electrode and a pair of electrodes flanking the middle electrode, the method comprising: conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; and identifying the lead body associated with the middle electrode based on the at least one measured electrical field potential, wherein the at least one pair of the proximal contacts comprises three pairs of proximal contacts, the at least one pair of the electrodes comprises three pairs of electrodes, the at least one electrical field comprises three electrical fields, and the at least one measured electrical field potential comprise three measured electrical field potentials, and wherein the lead body associated with the middle electrode is identified at least partially based on a polarity of at least one of the three measured electrical field potentials. 2. A method of operating three electrodes electrically coupled to three proximal contacts carried by three lead bodies, respectively, the electrodes adjacent tissue of a patient and including a middle electrode and a pair of electrodes flanking the middle electrode, the method comprising: conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; and identifying the lead body associated with the middle electrode based on the at least one measured electrical field potential, wherein the three electrodes are respectively located within three electrode columns, the method further comprising determining a longitudinal stagger between the three electrode columns, and selecting the three electrodes from the respective electrode columns based on the determined longitudinal stagger. 3. The method of claim 2 , wherein the electrodes selected from the respective electrode columns have the least amount of longitudinal stagger. 4. A method of operating three electrodes electrically coupled to three proximal contacts carried by three lead bodies, respectively, the electrodes adjacent tissue of a patient and including a middle electrode and a pair of electrodes flanking the middle electrode, the method comprising: conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; and identifying the lead body associated with the middle electrode based on the at least one measured electrical field potential, wherein the identification of the lead body comprises comparing the at least one measured electrical field potential to each of a plurality of reference electrical field potential sets respectively corresponding to different lead body orientations, determining a match between the at least one measured electrical field potential and one of the reference electrical field potential sets, and identifying the lead body associated with the middle electrode from the matching reference electrical field potential set. 5. A medical system, comprising: one or more electrical leads comprising three electrodes and three lead bodies carrying three proximal contacts electrically coupled to the three electrodes, respectively, the electrodes configured for being placed adjacent tissue as a middle electrode and a pair of electrodes flanking the middle electrode; a controller configured for transmitting electrical energy conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; monitoring circuitry configured for measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; and at least one processor configured for identifying the lead body associated with the middle electrode based on the at least one measured electrical field potential, wherein the at least one pair of the proximal contacts comprises three pairs of proximal contacts, the at least one pair of the electrodes comprises three pairs of electrodes, the at least one electrical field comprises three electrical fields, and the at least one measured electrical field potential comprise three measured electrical field potentials, and wherein the at least one processor is configured for identifying the lead body associated with the middle electrode at least partially based on a polarity of at least one of the three measured electrical field potentials. 6. A medical system, comprising: one or more electrical leads comprising three electrodes and three lead bodies carrying three proximal contacts electrically coupled to the three electrodes, respectively, the electrodes configured for being placed adjacent tissue as a middle electrode and a pair of electrodes flanking the middle electrode; a controller configured for transmitting electrical energy conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; monitoring circuitry configured for measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; and at least one processor configured for identifying the lead body associated with the middle electrode based on the at least one measured electrical field potential, wherein the three electrodes are respectively located within three electrode columns, the at least one processor further configured for determining a longitudinal stagger between the three electrode columns, and selecting the three electrodes from the respective electrode columns based on the determined longitudinal stagger. 7. The medical system of claim 6 , wherein the at least one processor is configured for selecting the electrodes from the respective electrode columns that have the least amount of longitudinal stagger. 8. A medical system, comprising: one or more electrical leads comprising three electrodes and three lead bodies carrying three proximal contacts electrically coupled to the three electrodes, respectively, the electrodes configured for being placed adjacent tissue as a middle electrode and a pair of electrodes flanking the middle electrode; a controller configured for transmitting electrical energy conveying electrical energy between at least one pair of the proximal contacts, thereby generating at least one electrical field in the tissue between at least one pair of the electrodes, respectively; monitoring circuitry configured for measuring a potential of the at least one electrical field at at least one remaining electrode via at least one remaining proximal contact, respectively; at least one processor configured for identifying the lead body associated with the middle electrode based on the at lea