Basket for a multi-electrode array catheter

What is claimed is: 1. An electrophysiology catheter, comprising: an elongate, deformable shaft comprising a proximal end and a distal end; and, a basket electrode assembly coupled to said distal end of said shaft, said basket electrode assembly comprising a proximal end and a distal end and configured to assume a compressed state and an expanded state and including a plurality of splines comprising a plurality of electrodes disposed thereon; wherein each of said plurality of splines are configured to assume a non-planar shape in said expanded state, and wherein the non-planar shape is configured to allow the plurality of electrodes to assume a predetermined configuration, wherein said basket electrode assembly is sized and configured to fit within a heart and wherein the plurality of electrodes are spaced between a proximal end and a distal end of each of the plurality of splines and are configured to allow for non-contact mapping of electrical activity in a tissue of the heart, and wherein said plurality of splines are free floating. 2. The electrophysiology catheter of claim 1 wherein said non-planar shape comprises a twisted shape. 3. The electrophysiology catheter of claim 2 wherein said twisted shape comprises a helical shape. 4. The electrophysiology catheter of claim 2 wherein a distance from one of the plurality of electrodes on a second of the plurality of splines to said distal end of said basket electrode assembly is different than a distance from any of said plurality of electrodes on a first of the plurality of splines to said distal end of said basket electrode assembly in said expanded state. 5. The electrophysiology catheter of claim 1 wherein a helical pitch of said first spline in said expanded state is different than a helical pitch of said second spline in said expanded state. 6. The electrophysiology catheter of claim 1 wherein one of the plurality of splines is configured to assume a shape other than a helical shape in said expanded state. 7. The electrophysiology catheter of claim 6 wherein a maximum radial distance of one of the plurality of splines from a central longitudinal axis of said basket electrode assembly is different than a maximum radial distance of another of the plurality of splines from said central longitudinal axis when said basket electrode assembly is in said expanded state. 8. The electrophysiology catheter of claim 1 wherein said a distance between first and second electrodes of said plurality of electrodes is different than a distance between second and third electrodes of said plurality of electrodes. 9. The electrophysiology catheter of claim 1 wherein at least one of the plurality of splines is tubular and includes a plurality of conductors, each of said plurality of conductors extending through the at least one of the plurality of splines from a corresponding one of said plurality of electrodes to said proximal end of said basket electrode assembly. 10. The electrophysiology catheter of claim 1 , wherein the plurality of electrodes are configured to be dispersed unevenly along each spline to facilitate a more even distribution of electrodes on the basket electrode assembly. 11. The electrophysiology catheter of claim 1 , wherein the basket electrode assembly further comprises a spline comprising a planar shape. 12. An electrophysiology catheter, comprising: an elongate, deformable shaft comprising a proximal end and a distal end; and, a basket electrode assembly coupled to said distal end of said shaft, said basket electrode assembly comprising a proximal end and a distal end and configured to assume a compressed state and an expanded state and including: a plurality of first splines, each of said plurality of first splines configured to assume a shape other than a helical shape in said expanded state; and, a second spline, said second spline comprising an electrode disposed thereon and configured to assume a helical shape in said expanded state, wherein said second spline is coupled to the proximal end and the distal end of the basket electrode assembly, and wherein said plurality of first splines and said second spline are self-supporting. 13. The electrophysiology catheter of claim 12 wherein each of said plurality of first splines comprises an electrode disposed thereon. 14. The electrophysiology catheter of claim 12 wherein said basket electrode assembly includes a third spline comprising an electrode disposed thereon wherein said third spline is configured to assume a helical shape in said expanded state and wherein said third spline is self-supporting. 15. The electrophysiology catheter of claim 14 wherein a helical pitch of said second spline in said expanded state is different than a helical pitch of said third spline in said expanded state. 16. The electrophysiology catheter of claim 12 wherein each of said plurality of first splines and said second spline includes: a plurality of electrodes disposed thereon; and, a plurality of conductors, each of said plurality of conductors extending from a corresponding one of said plurality of electrodes to said proximal end of said basket electrode assembly. 17. The electrophysiology catheter of claim 12 wherein a maximum radial distance of said second spline from a central longitudinal axis of said basket electrode assembly is different than a maximum radial distance of each of said plurality of first splines from said central longitudinal axis when said basket electrode assembly is in said expanded state. 18. An electrophysiology catheter, comprising: an elongate, deformable shaft comprising a proximal end and a distal end; and, a basket electrode assembly coupled to said distal end of said shaft, said basket electrode assembly comprising a proximal end and a distal end and a central longitudinal axis and configured to assume a compressed state and an expanded state and including: a first spline, said first spline comprising an electrode disposed thereon and comprising a first maximum radius relative to said axis in said expanded state; and, a second spline, said second spline comprising an electrode disposed thereon and comprising a second maximum radius relative to said axis in said expanded state, said second maximum radius different than said first maximum radius, wherein said first spline and said second spline are each coupled to the proximal end and the distal end of the basket electrode assembly and are each independently supported. 19. The electrophysiology catheter of claim 18 wherein at least one of said first and second splines assumes a helical shape in said expanded state. 20. The electrophysiology catheter of claim 18 wherein both of said first and second splines assume a helical shape in said expanded state and a helical pitch of said first spline differs from a helical pitch of said second spline. 21. The electrophysiology catheter of claim 18 wherein each of said first and second splines is tubular and includes a plurality of electrodes disposed thereon; and, a plurality of conductors, each of said conductors extending from a corresponding one of said plurality of electrodes to said proximal end of said basket electrode assembly.