Steerable catheter using flat pull wires and having torque transfer layer made of braided flat wires

What is claimed is: 1. A shaft for a steerable catheter formed according to a process comprising: providing a mandrel; placing an inner liner over the mandrel; placing a steering wire assembly over the inner liner, the steering wire assembly including: a flat pull wire extending longitudinally along the inner liner; a flexible tube extending longitudinally along the inner liner; and a pull ring circumferentially surrounding the inner liner and comprising a slot configured to accommodate the flat pull wire, wherein the slot extends through a wall of the pull ring, wherein a portion of the flat pull wire is encased in the flexible tube, and the flexible tube has a cross-sectional shape that differs from a cross-sectional shape of the flat pull wire; placing a wire reinforcing assembly over the inner liner, the wire reinforcing assembly including at least two flat wires braided into a wire mesh; placing a tubular outer layer over the inner liner, the steering wire assembly, and the wire reinforcing assembly; laminating the outer layer to the inner liner, thereby embedding the steering wire assembly and the wire reinforcing assembly within the outer layer; and removing the mandrel, thereby forming a lumen. 2. The shaft according to claim 1 , wherein placing a steering wire assembly over the inner liner comprises coupling the flat pull wire to the pull ring. 3. The shaft according to claim 1 , wherein: the flexible tube of the steering wire assembly comprises: a first flexible tube extending longitudinally along the inner liner at a first circumferential location; and a second flexible tube extending longitudinally along the inner liner at a second circumferential location; the flat pull wire of the steering wire assembly comprises: a first flat pull wire extending longitudinally along the inner liner, a portion of the first plat pull wire encased in the first flexible tube; and a second flat pull wire extending longitudinally along the inner liner, a portion of the second flat pull wire encased in the second flexible tube, and wherein the first and second circumferential locations are about 180 degrees apart from each other. 4. The shaft according to claim 1 , wherein the tubular outer layer comprises a plurality of tubular segments having different hardness values, wherein the plurality of tubular segments are arranged to abut each other longitudinally along the inner liner. 5. A shaft for a steerable catheter formed according to a process comprising: providing a mandrel; placing a lining material over the mandrel to form an inner liner; providing at least one flat shaped wire; placing a flexible liner over each of the at least one flat shaped wires to create at least one flat lumen; placing a pull ring circumferentially about the inner liner, wherein the pull ring comprises at least one slot configured to receive the at least one flat shaped wire, wherein the at least one slot extends through a wall of the pull ring; placing a braided wire assembly over the inner liner and the at least one flat lumen; covering the braided wire assembly with a melt processing polymer; covering the melt processing polymer with shrink wrap tubing; applying sufficient heat to the melt processing polymer to raise the temperature of the polymer above its melting point; cooling the assembly; and removing the mandrel. 6. The shaft of claim 5 , wherein the shaft further comprises a second melt processing polymer over the flat lumen.