Distal access aspiration guide catheter

The invention claimed is: 1. A catheter comprising: a catheter body comprising: an inner liner; an outer cover; a metal structure between the inner liner and the outer cover, the metal structure defining a helical gap; and a polymeric material positioned within the helical gap and between the inner liner and the outer cover, wherein the polymeric material comprises a thermoset polymer material, and wherein the polymeric material is different from the materials of the inner liner and outer cover, and wherein a distal section of the catheter body has an inner diameter to wall thickness ratio greater than or equal to 16:1. 2. The catheter of claim 1 , wherein the inner diameter to wall thickness ratio of the distal region of the catheter body is in a range of 16:1 to 24:1. 3. The catheter of claim 1 , wherein the distal section of the catheter body has a lateral flexibility of greater than or equal to 1200 degrees of deflection per pound-force inch. 4. The catheter of claim 1 , wherein the distal section of the catheter body comprises a first distal section and a second distal section distal to the first distal section, wherein the first distal section has a first lateral flexibility of greater than or equal to 1000 degrees of deflection per pound-force inch and the second distal section has a second lateral flexibility of greater than or equal to 1500 degrees of deflection per pound-force inch. 5. The catheter of claim 1 , wherein the distal section of the catheter body comprises a first distal section and a second distal section distal to the first distal section, wherein the first distal section has a first lateral flexibility of greater than or equal to 1500 degrees of deflection per pound-force inch and the second distal section has a second lateral flexibility of greater than or equal to 2500 degrees of deflection per pound-force inch. 6. The catheter of claim 1 , wherein the distal section of the catheter body has an Ultimate Tensile Strength of 22 Newtons. 7. The catheter of claim 1 , wherein the metal structure and the polymeric material extend to a distal end of the catheter body. 8. The catheter of claim 1 , wherein the metal structure comprises a nickel titanium alloy, stainless steel, cobalt-nickel alloy, or titanium. 9. The catheter of claim 1 , wherein the helical gap has a continuous width. 10. The catheter of claim 1 , wherein the helical gap varies in width over a length of the catheter body. 11. The catheter of claim 10 , wherein a proximal portion of the helical gap in a proximal section of the catheter body has a smaller width than a distal portion of the helical gap in the distal section of the catheter body. 12. The catheter of claim 1 , wherein the polymeric material comprises an elastomer. 13. The catheter of claim 1 , wherein the polymeric material comprises a thermoset polyurethane adhesive. 14. The catheter of claim 1 , further comprising braided or woven reinforcement filaments on the metal structure and the polymeric material. 15. The catheter of claim 1 , further comprising a balloon. 16. The catheter of claim 1 , further comprising a hydrophilic coating on an outer surface of the outer cover. 17. A catheter comprising: an elongate body defining a lumen, the elongate body comprising: an inner liner; an outer cover; and a tubular member between the inner liner and the outer cover, the tubular member comprising: a metal helix defining a helical gap; and a thermoset polymeric material positioned within the helical gap, wherein the thermoset polymeric material is different from the materials of the inner liner and outer cover, and wherein a distal section of the elongate body has an inner diameter to wall thickness ratio greater than or equal to 16:1. 18. The catheter of claim 17 , wherein the distal section of the elongate body has a lateral flexibility of greater than or equal to 1200 degrees of deflection per pound-force inch. 19. A method comprising: forming a catheter body, wherein forming the catheter body comprises: disposing polymeric material within a helical gap defined by a metal structure, wherein the polymeric material comprises a thermoset polymeric material; positioning an inner liner radially inward of the polymeric material and the metal structure; and positioning an outer cover over the polymeric material and the metal structure, wherein the polymeric material is different from the materials of the inner liner and outer cover, and wherein a distal section of the catheter body has an inner diameter to wall thickness ratio greater than or equal to 16:1. 20. The method of claim 19 , wherein positioning the inner liner radially inward of the polymeric material and the metal structure comprises casting a flowable polymeric material into the helical gap and solidifying the flowable polymeric material over the inner liner. 21. The method of claim 19 , wherein the distal section of the catheter body has a lateral flexibility of greater than or equal to 1200 degrees of deflection per pound-force inch. 22. The method of claim 19 , further comprising applying a hydrophilic coating to an outer surface of the outer cover.