Guidewire assembly with intertwined core wire

I/We claim: 1 . An apparatus, comprising: (a) a first helical wire coil; and (b) a core wire having a first wire portion and a second wire portion, wherein the first wire portion of the core wire extends through the first helical wire coil, wherein the second wire portion of the core wire is intertwined with the first helical wire coil to fixedly secure the core wire relative to the first helical wire coil, wherein the core wire is formed from a first material that is non-extensible, wherein the core wire is fixedly secured relative to a distal portion of the first helical wire coil such that the core wire inhibits longitudinal elongation of the first helical wire coil along a longitudinal coil axis. 2 . The apparatus of claim 1 , wherein the core wire is engaged with the first helical wire coil to inhibit relative movement therebetween for securement. 3 . The apparatus of claim 1 , wherein the first helical wire coil defines a helical space, and wherein the core wire is intertwined with the first helical wire coil such that the core wire is received within the helical space. 4 . The apparatus of claim 1 , wherein the second portion of the core wire has a second helical wire coil, and wherein the second helical wire coil defines at least a portion of a helix and is intertwined with the first helical wire coil. 5 . The apparatus of claim 4 , wherein the first helical wire coil defines a helical space, and wherein the second helical wire coil is intertwined with the first helical wire coil such that the second helical wire coil is received within the helical space. 6 . The apparatus of claim 5 , wherein the first helical wire coil has a first helical pitch and the second helical wire coil has a second helical pitch, and wherein the first and second helical pitches are generally equivalent. 7 . The apparatus of claim 6 , wherein the first helical wire coil defines a first outer helical diameter and the second helical wire coil defines a second outer helical diameter, and wherein the first and second outer helical diameters are generally equivalent. 8 . The apparatus of claim 5 , wherein the second helical wire coil is engaged with the first helical wire coil to inhibit relative movement therebetween for securement. 9 . The apparatus of claim 8 , wherein the second helical wire coil is engaged with the first helical wire coil to inhibit relative longitudinal movement therebetween. 10 . The apparatus of claim 9 , wherein the second helical wire coil is engaged with the first helical wire coil to inhibit relative rotational movement therebetween. 11 . The apparatus of claim 1 , wherein the core wire is fixedly secured to the distal portion of the first helical wire coil such that core wire inhibits longitudinal elongation of the first helical wire coil along the longitudinal coil axis. 12 . The apparatus of claim 11 , wherein the core wire is fixedly secured to the distal portion of the first helical wire coil with an adhesive. 13 . The apparatus of claim 1 , further comprising a helical sleeve having a helical bore, wherein at least a portion of the core wire is disposed within the helical bore of the helical sleeve, wherein the core wire is secured within the helical sleeve, wherein the helical sleeve is formed from a second material, wherein the second material of the helical sleeve is different than the first material of the core wire, wherein the sleeve is fixedly secured to the distal portion of the first helical wire coil such that core wire inhibits longitudinal elongation of the first helical wire coil along the longitudinal coil axis. 14 . The apparatus of claim 13 , wherein the first material and the second material are configured to be brazed, soldered, or welded together. 15 . The apparatus of claim 1 , further comprising: (a) a body; (b) a guide extending distally from the body; (c) a guidewire including the first helical wire coil and the core wire, wherein the guidewire is slidably disposed relative to the guide; and (d) a dilation catheter slidably disposed relative to the guidewire, wherein the dilation catheter includes an expandable dilator. 16 . An apparatus, comprising: (a) a proximal wire coil, wherein the proximal wire coil is helical; (b) a distal wire coil, wherein the distal wire coil is helical and interlocked with the proximal wire coil such that the proximal and distal wire coils form a double helix configuration extending along a longitudinal coil axis, wherein the distal wire coil defines a helical space; and (c) a core wire having a first wire portion and a second wire portion, wherein the first wire portion of the core wire extends through the proximal wire coil, wherein the second wire portion of the core wire has a core helical wire coil intertwined with the distal wire coil such that the core helical wire is received within the helical space and engaged with the distal wire coil to inhibit movement of the core helical wire relative to the distal wire coil and fixedly secure the core wire relative to the distal wire coil, wherein the core wire is formed from a first material that is non-extensible, wherein the core helical wire coil is fixedly secured relative to a distal portion of the distal wire coil such that the core wire inhibits longitudinal elongation of the proximal and distal wire coils along a longitudinal coil axis. 17 . The apparatus of claim 16 , wherein the core wire is fixedly secured to the distal portion of the distal wire coil such that core wire inhibits longitudinal elongation of the proximal and distal wire coils along the longitudinal coil axis. 18 . The apparatus of claim 16 , further comprising a helical sleeve having a helical bore, wherein the core helical wire coil of the core wire is disposed within the helical bore of the helical sleeve, wherein the core helical wire coil is secured within the helical sleeve, wherein the helical sleeve is formed from a second material, wherein the second material of the helical sleeve is different than the first material of the core wire, wherein the sleeve is fixedly secured to the distal portion of the distal wire coil such that core wire inhibits longitudinal elongation of the proximal and distal wire coils along the longitudinal coil axis. 19 . The apparatus of claim 16 , further comprising: (a) a body; (b) a guide extending distally from the body; (c) a guidewire including the distal wire coil, the proximal wire coil, and the core wire, wherein the guidewire is slidably disposed relative to the guide; and (d) a dilation catheter slidably disposed relative to the guidewire, wherein the dilation catheter includes an expandable dilator. 20 . A method of manufacturing a guidewire for a dilation catheter, the method comprising: (a) inserting a first portion of a core wire through a helical wire coil; (b) intertwining a second portion of the core wire with the helical wire coil to engage the second portion of the core wire with the helical wire coil and thereby inhibit relative movement therebetween; and (c) fixedly securing the core wire relative to the helical wire coil, wherein the core wire inhibits elongation of the helical wire coil, and wherein the core wire permits lateral deformation of the helical wire coil.