Navigation guidewire with interlocked coils

We claim: 1. An apparatus comprising: (a) a proximal coil distally extending and terminating into an interlocking portion thereof such that the interlocking portion of the proximal coil defines a proximal inner diameter, wherein the proximal coil is formed by a wire wrapped in a helical configuration, wherein the proximal coil comprises: (i) a proximal portion, (ii) a distal portion extending along a longitudinal axis wherein the distal portion terminates into the interlocking portion, and (iii) a preformed bend located between the proximal portion and the distal portion, wherein the interlocking portion is distal relative to the preformed bend: (b) a distal coil defining a distal inner diameter, wherein the distal coil extends along the longitudinal axis of the distal portion, wherein the distal inner diameter along an entirety of the distal coil is larger than the proximal inner diameter, wherein the distal coil is formed by a wire wrapped in a helical configuration, wherein at least one wrap at a proximal portion of the distal coil is interlocked with the interlocking portion of the proximal coil and at least one wrap at the distal portion of the proximal coil such that interlocking portions of the proximal and distal coils form a double helix configuration and include the interlocking portion of the proximal coil; (c) a navigation sensor received within the distal inner diameter and located within the distal coil, wherein the navigation sensor is configured to generate signals in response to movement within an electromagnetic field; and (d) a wire extending through the proximal coil, wherein the wire is in electrical communication with the navigation sensor such that the wire is configured to communicate signals from the navigation sensor. 2. The apparatus of claim 1 , further comprising a tubular member joined to a proximal end of the proximal coil, wherein the wire further extends through the tubular member. 3. The apparatus of claim 2 , wherein the tubular member is formed of a metal material. 4. The apparatus of claim 2 , further comprising a core wire, wherein the core wire is formed of a non-extensible material, wherein a proximal end of the core wire is secured to the tubular member. 5. The apparatus of claim 4 , wherein a distal terminal end of the core wire is secured to the distal coil. 6. The apparatus of claim 1 , further comprising a ground wire, wherein the ground wire is secured to the proximal coil, wherein the ground wire is configured to provide electrical ground to the proximal coil. 7. The apparatus of claim 1 , further comprising a core wire extending to a terminal distal end of the core wire, wherein the core wire is formed of a non-extensible material, wherein the core wire extends through the preformed bend of the proximal coil and the terminal distal end of the core wire is secured to the outer coil. 8. The apparatus of claim 7 , wherein the core wire has a first region with a first outer diameter, a second region with a second outer diameter, and a taper proximally positioned from the terminal distal end and extending from the first region to the second region. 9. The apparatus of claim 8 , wherein the first outer diameter is proximal to the preformed bend. 10. The apparatus of claim 9 , wherein the taper is proximal to the preformed bend. 11. The apparatus of claim 1 , wherein the interlocking portion of the proximal coil defines a proximal outer diameter, wherein the distal coil defines a distal outer diameter, wherein the proximal outer diameter of the proximal coil is equal to the distal outer diameter of the distal coil. 12. The apparatus of claim 11 , wherein the proximal outer diameter of the proximal coil is 0.0345 inches, wherein the distal outer diameter of the distal coil is 0.0345 inches. 13. The apparatus of claim 1 , wherein the proximal inner diameter of the proximal coil is 0.0225 inches, wherein the distal inner diameter of the distal coil is 0.0265 inches. 14. The apparatus of claim 1 , wherein the navigation sensor comprises a single axis coil. 15. The apparatus of claim 1 , further comprising: (a) a guide member, wherein the proximal and distal coils are configured to translate relative to the guide member; and (b) a dilation catheter slidably disposed about the proximal coil, wherein the dilation catheter includes an expandable dilator. 16. The apparatus of claim 11 , wherein the distal outer diameter along an entirety of the distal coil is constant and equal to the proximal outer diameter. 17. An apparatus, comprising: (a) a body; (b) a guide extending distally from the body; (c) a guidewire slidably disposed relative to the guide, wherein the guidewire comprises: (i) a proximal coil distally extending and terminating into an interlocking portion thereof, wherein the proximal coil is formed by a wire wrapped in a helical configuration, wherein the proximal coil comprises: (A) a proximal portion extending along a first axis, (B) a distal portion extending along a second axis wherein the distal portion terminates into the interlocking portion, and (C) a preformed bend located between the proximal portion and the distal portion such that the first axis and the second axis define an angle, wherein the interlocking portion is distal relative to the preformed bend: (ii) a distal coil extending along the second axis, wherein the distal coil is formed by a wire wrapped in a helical configuration, wherein at least one wrap at a proximal portion of the distal coil is interlocked with the interlocking portion of the proximal coil and at least one wrap at the distal portion of the proximal coil, such that interlocking portions of the proximal and distal coils form a double helix configuration and include the interlocking portion of the proximal coil, (iii) a joint securement positioned at the interlocking portions of the proximal and distal coils securing the interlocking portions of the proximal and distal coils together, and (iv) a navigation sensor located within the distal coil adjacent to the joint securement and the interlocking portions of the proximal and distal coils, wherein the navigation sensor is configured to generate signals in response to movement within an electromagnetic field; and (d) a dilation catheter slidably disposed relative to the guidewire, wherein the dilation catheter includes an expandable dilator. 18. The apparatus of claim 17 , further comprising an image guidance system in communication with the navigation sensor, wherein the image guidance system is configured to render an image with a representation of a position of the navigation sensor in relation to a patient. 19. An apparatus comprising: (a) a proximal coil distally extending and terminating into an interlocking portion thereof, wherein the proximal coil is formed by a wire wrapped in a helical configuration, wherein the proximal coil comprises: (i) a proximal region extending along a first axis, (ii) a distal region extending along a second axis, wherein the distal region terminates in the interlocking portion, and (iii) a bent region located between the proximal region and the distal region such that the first axis and the second axis intersect to define an angle: (b) a distal coil, wherein the distal coil is formed by a wire wrapped in a helical configuration, wherein at least one wrap at a proximal portion of the distal coil is interlocked with the interlocking portion of the proximal coil at least one wrap at the distal region of the proximal coil, such that interlocking portion