Catheter including leak resistant proximal shaft

What is claimed is: 1. A catheter comprising: a hypotube defining an inner circumferential surface, an outer circumferential surface, and a proximal end, wherein the hypotube comprises a metal or an alloy; an inner liner attached to the inner circumferential surface of the hypotube and proximally extending beyond the proximal end of the hypotube, wherein the inner liner comprises a fluoropolymer; an outer jacket; a hub; and a single bonding layer adhesively bonding the outer circumferential surface of the hypotube to the hub, wherein the single bonding layer proximally extends beyond the proximal end of the hypotube substantially the same distance as the inner liner proximally extends beyond the proximal end of the hypotube such that a proximal end of the inner liner and a proximal end of the single bonding layer are aligned and the hub directly contacts the proximal end of the inner liner, wherein the single bonding layer comprises a polyamide or a polyether-co-polyamide, wherein the single bonding layer is the only layer between the outer circumferential surface of the hypotube and the hub and is the only layer between the inner liner and the hub proximal of the proximal end of the hypotube, and wherein the single bonding layer extends distally past the hub to a proximal end of the outer jacket. 2. The catheter of claim 1 , wherein the single bonding layer consists essentially of the polyamide or the polyether-co-polyamide. 3. The catheter of claim 1 , wherein the single bonding layer consists essentially of polyether-co-polyamide. 4. The catheter of claim 1 , wherein the hub comprises polypropylene. 5. The catheter of claim 1 , wherein the inner liner comprises polytetrafluoroethylene (PTFE). 6. The catheter of claim 1 , wherein the single bonding layer is directly bonded to the inner liner proximal of the proximal end of the hypotube. 7. The catheter of claim 1 , wherein the metal or the alloy comprises at least one of stainless steel or a nickel-titanium alloy. 8. The catheter of claim 1 , wherein the hypotube comprises a spiral-cut tube or a slotted tube. 9. A catheter comprising: a hypotube defining an inner circumferential surface, an outer circumferential surface, and a proximal end, wherein the hypotube comprises a stainless steel or a nickel titanium alloy; an inner liner attached to the inner circumferential surface of the hypotube and proximally extending beyond the proximal end of the hypotube, wherein the inner liner comprises a polytetrafluoroethylene; an outer jacket; a hub; and a single bonding layer adhesively bonding the outer circumferential surface of the hypotube to the hub, wherein the single bonding layer consists essentially of a polyamide or a polyether-co-polyamide, wherein the single bonding layer proximally extends beyond the proximal end of the hypotube substantially the same distance as the inner liner proximally extends beyond the proximal end of the hypotube such that a proximal end of the inner liner and a proximal end of the single bonding layer are aligned and the hub directly contacts the proximal end of the inner liner, wherein the single bonding layer is adhesively bonded to the inner liner proximal to the proximal end of the hypotube, wherein the single bonding layer is the only layer between the outer circumferential surface of the hypotube and the hub and is the only layer between the inner liner and the hub proximal of the proximal end of the hypotube, and wherein the single bonding layer extends distally past the hub to a proximal end of the outer jacket. 10. The catheter of claim 9 , wherein the hub comprises polypropylene. 11. The catheter of claim 9 , wherein the hypotube comprises a spiral-cut tube or a slotted tube. 12. A method comprising: attaching an inner liner to an inner circumferential surface of a hypotube, wherein the inner liner proximally extends beyond a proximal end of the hypotube, wherein the inner liner comprises a fluoropolymer, wherein the inner liner further defines an outer circumferential surface and a proximal end, and wherein the hypotube comprises a metal or an alloy; attaching a single bonding layer to the outer circumferential surface of the hypotube, wherein the single bonding layer comprises a polyamide or a polyether-co-polyamide; and attaching a hub to an outer surface of the single bonding layer such that the single bonding layer adhesively bonds the outer circumferential surface of the hypotube to the hub, wherein the single bonding layer is the only layer between the hypotube and the hub and is the only layer between the inner liner and the hub proximal of the proximal end of the hypotube, wherein the single bonding layer proximally extends beyond the proximal end of the hypotube substantially the same distance as the inner liner proximally extends beyond the proximal end of the hypotube such that the proximal end of the inner liner and a proximal end of the single bonding layer are aligned and the hub directly contacts the proximal end of the inner liner, and wherein the single bonding layer extends distally past the hub to a proximal end of an outer jacket. 13. The method of claim 12 , wherein the single bonding layer consists essentially of the polyamide or the polyether-co-polyamide. 14. The method of claim 12 , wherein the single bonding layer consists essentially of polyether-co-polyamide. 15. The method of claim 12 , wherein the hub comprises polypropylene. 16. The method of claim 12 , wherein the inner liner comprises polytetrafluoroethylene (PTFE). 17. The method of claim 12 , wherein the single bonding layer is directly bonded to the inner liner proximal of the proximal end of the hypotube.