Subxiphoid connective lesion ablation system and method

What is claimed is: 1. An ablation instrument for applying ablative energy to epicardial tissue via a subxiphoid access surgical approach to treat cardiac arrhythmia, the ablation instrument comprising: head assembly sized and shaped for a subxiphoid surgical approach to a patient's heart, the head assembly defining a contact face and including: a paddle body defining an outer perimeter of the head assembly, wherein the paddle body defines a leading end, a trailing end opposite the leading end, and opposing first and second sides, the ends combining to define a head length of the head assembly and the sides combining to define a head width of the head assembly, a first elongated ablation electrode made of a first material, the first elongated ablation electrode having a first length extending between the opposing first and second sides of the paddle body, wherein the first length is larger than a width of the first elongated ablation electrode, wherein the width of the first elongated ablation electrode is defined as the maximum thickness of the first material as measured between the leading and trailing end, a second elongated ablation electrode made of a second material, the first elongated ablation electrode having a second length extending between the opposing first and second sides of the paddle body, wherein the second length is larger than a width of the second elongated ablation electrode, wherein the width of the second elongated ablation electrode is defined as the maximum thickness of the second material as measured between the leading and trailing end, wherein the first and second ablation electrodes are coupled to the paddle body in a spaced apart, electrically isolated fashion such that a spatial relationship between the first and second ablation electrodes is fixed, the ablation electrodes being exteriorly exposed at the contact face and entirely within the outer perimeter, wherein the first and second ablation electrodes are arranged such that at least one of the first and second lengths extend generally perpendicular to a direction of the head length of the head assembly; a tubular member extending from the head assembly, wherein the tubular member is coupled to the trailing end; and wiring electrically connected to the first and second ablation electrodes for delivering energy to the first and second ablation electrodes, the wiring extending through the tubular member; wherein the instrument is manipulable to locate the contact face on epicardial tissue of a patient's heart via a subxiphoid surgical approach; and further wherein the paddle body includes: a head; a first skirt projecting from the head and completely surrounding a perimeter of the first ablation electrode to define a first suction region; a separate second skirt projecting from the head and completely surrounding a perimeter of the second ablation electrode to establish a second suction region; wherein the second skirt does not surround the first suction region and the first skirt does not surround the second suction region; a first suction aperture formed by the head within the first suction region for applying a suction force to the first suction region; and a second suction aperture formed by the head within the second suction region for applying a suction force to the second suction region. 2. The ablation instrument of claim 1 , wherein the instrument is manipulable to locate the first and second ablation electrodes on epicardial tissue between left and right pulmonary vein junctions of a patient's posterior left atrium via a subxiphoid surgical approach. 3. The ablation instrument of claim 1 , wherein a diameter of the tubular member is less than the head width of the head assembly. 4. The ablation instrument of claim 1 , wherein the first and second lengths of the first and second electrodes are arranged to extend generally perpendicular to a central axis of the tubular member. 5. The ablation instrument of claim 1 , wherein the first length being at least three times the width of the first ablation electrode. 6. The ablation instrument of claim 1 , wherein the first and second ablation electrodes are sized and arranged relative to the paddle body such that when the head assembly is positioned along the posterior left atrium between left and right pulmonary veins, the ablation electrodes are operable to form lesions interconnecting island lesions surrounding junctions of the pulmonary veins with the left atrium. 7. The ablation instrument of claim 1 , further comprising: suction tubing fluidly connected to each of the suction apertures and extending through the tubular member. 8. The ablation instrument of claim 1 , wherein the head assembly further includes: first and second auxiliary electrodes coupled to the paddle body and exteriorly exposed at the contact face; wherein the auxiliary electrodes are electrically isolated from one another and are located between the first and second ablation electrodes. 9. The ablation instrument of claim 8 , wherein the auxiliary electrodes are operable to perform a pacing operation on a patient's heart. 10. The ablation instrument of claim 8 , wherein the auxiliary electrodes are operable to sense electrical activity on a patient's heart. 11. The ablation instrument of claim 1 , wherein the first electrode is more proximate the trailing end of the paddle body than the second electrode, and even further wherein a first end of the first electrode is more proximate the first side of the paddle body than a second end of the first electrode. 12. The ablation instrument of claim 11 , wherein the second length of the second electrode is at least three times the width of the second electrode, and further wherein the second electrode is located proximate the leading end of the paddle body, and even further wherein a first end of the second electrode is more proximate the first side of the paddle body than a second end of the second electrode. 13. The ablation instrument of claim 12 , wherein the linear distance between the first end of the first electrode and the first end of the second electrode is less than a linear distance between the first end of the first electrode and the second end of the second electrode. 14. An ablation system for applying ablative energy to epicardial tissue via a subxiphoid access surgical approach to treat cardiac arrhythmia, the ablation system comprising: an ablation instrument comprising: head assembly sized and shaped for a subxiphoid surgical approach to a patient's heart, the head assembly defining a contact face and including: a paddle body defining an outer perimeter of the head assembly, wherein the outer perimeter has opposing leading and trailing ends, further wherein the outer perimeter has opposing first and second sides extending between the leading and trailing ends, the paddle body further including a head and a first skirt projecting from the head to establish a first suction region and a separate second skirt projecting from the head to establish a second suction region; wherein the second skirt does not surround the first suction region and the first skirt does not surround the second suction region, a first suction aperture formed by the head within the first suction region for applying a suction force to the first suction region, a second suction aperture disposed within the second electrode suction region for applying a suction force to the second electrode suction region, a first elongated ablation electrode positioned within the first suction region and completely encircled by the first skirt, the first elongated ablation electrode having two first e