Multi-electrode epicardial pacing

What is claimed is: 1. A method for epicardial pacing of a heart of a human patient, the method comprising: percutaneously inserting a delivery sheath into the patient and navigating a distal end portion of the delivery sheath to within a pericardial sac of the patient; deploying an epicardial pacing lead device through a first lumen of the delivery sheath, the epicardial pacing lead device comprising: a first shaft having one or more electrodes disposed thereon; a second shaft having one or more electrodes disposed thereon; and an elongate flexible spacing member slidably disposed in a lumen of the first shat and extending from a distal portion of the first shaft to a distal portion of the second shaft, wherein each of the first and second shafts include insulation such that at least some of the electrodes are insulated electrodes that inhibit emanation of electrical fields therefrom in a particular direction corresponding to the insulation's location; orienting the epicardial pacing lead device so that the one or more electrodes at least partially contact myocardium of the patient; after deploying the epicardial pacing lead device from the delivery sheath and while the epicardial pacing lead device remains so deployed, modifying a tension of the elongate flexible spacing member such that a distance between the first shaft and the second shaft is modified; and activating a source of electrical energy to provide pacing energy to the myocardium of the heart via the one or more electrodes, wherein the insulation of the insulated electrodes inhibits extracardiac stimulation. 2. The method of claim 1 , wherein the epicardial pacing lead device is configured for performance of ablation or defibrillation, and wherein the method is performed for ablation or defibrillation. 3. The method of claim 1 , wherein increasing the tension of the elongate flexible spacing member decreases the distance between the first shaft and the second shaft. 4. The method of claim 1 , wherein the distance between the first shaft and the second shaft is less than 10 mm. 5. The method of claim 1 , wherein the first shaft and the second shaft extend from the delivery sheath such that a combination of the first shaft, the second shaft, and the delivery sheath define a Y-shape. 6. The method of claim 1 , wherein the elongate flexible spacing member is slidably disposed in a lumen of the first shaft. 7. The method of claim 6 , wherein modifying the tension of the elongate flexible space member comprises sliding the elongate flexible spacing member within the lumen of the first shaft. 8. The method of claim 1 , wherein the elongate flexible spacing member is slidably disposed in a lumen of the first shaft and in a lumen of the second shaft. 9. The method of claim 1 , wherein the elongate flexible spacing member comprises a nitinol wire. 10. A method for epicardial pacing of a heart of a human patient, the method comprising: percutaneously inserting a delivery sheath into the patient and navigating a distal end portion of the delivery sheath to within a pericardial sac of the patient; deploying an epicardial pacing lead device through a first lumen of the delivery sheath, the epicardial pacing lead device comprising: a first shaft having one or more electrodes disposed thereon; a second shaft having one or more electrodes disposed thereon; and an elongate flexible spacing member extending from a distal portion of the first shaft to a distal portion of the second shaft, the elongate flexible spacing member being slidably disposed in a lumen of the first shaft, wherein each of the first and second shafts include insulation such that at least some of the electrodes are insulated electrodes that inhibit emanation of electrical fields therefrom in a particular direction corresponding to the insulation's location; orienting the epicardial pacing lead device so that the one or more electrodes at least partially contact myocardium of the patient; modifying a tension of the elongate flexible spacing member such that a distance between the first shaft and the second shaft is modified; and activating a source of electrical energy to provide pacing energy to the myocardium of the heart via the one or more electrodes, wherein the insulation of the insulated electrodes inhibits extracardiac stimulation. 11. The method of claim 10 , wherein modifying the tension of the elongate flexible space member comprises sliding the elongate flexible spacing member within the lumen of the first shaft. 12. The method of claim 10 , wherein the elongate flexible spacing member is slidably disposed in a lumen of the second shaft. 13. The method of claim 10 , wherein the elongate flexible spacing member comprises a nitinol wire. 14. The method of claim 10 , wherein increasing the tension of the elongate flexible spacing member decreases the distance between the first shaft and the second shaft.