Guidewire for dilating eustachian tube via middle ear

We claim: 1. A guidewire comprising: (a) a guidewire shaft, wherein at least a portion of the guidewire shaft is comprised of metal, wherein the guidewire shaft includes a lumen; (b) a non-compliant balloon arranged at a distal end of the guidewire shaft, wherein an interior of the non-compliant balloon fluidly communicates with the lumen, wherein the non-compliant balloon is operable to transition between a deflated state in which the non-compliant balloon is configured to pass through an isthmus of a Eustachian tube (ET), and an inflated state in which the non-compliant balloon is configured to dilate the ET, wherein the guidewire is configured to assume a maximum outer diameter of 1 millimeter or less when the non-compliant balloon is in the deflated state, wherein the non-compliant balloon has a maximum outer diameter of at least 6 millimeters when the non-compliant balloon is in the inflated state to dilate the ET; (c) a navigation sensor operable to generate a signal corresponding to a location of a distal end of the guidewire within a patient; and (d) a sensor wire operatively coupled with the navigation sensor, wherein the sensor wire is fixably attached to an inner surface of the guidewire shaft within the inflatable element. 2. The guidewire of claim 1 , wherein at least a portion of the guidewire shaft is comprised of braided stainless steel. 3. The guidewire of claim 1 , wherein the lumen extends along a central axis of the guidewire shaft. 4. The guidewire of claim 1 , wherein the navigation sensor comprises an electromagnetic sensor. 5. The guidewire of claim 4 , wherein the electromagnetic sensor comprises an electrically conductive coil. 6. The guidewire of claim 1 , wherein the navigation sensor is arranged distal to the non-compliant balloon. 7. The guidewire of claim 1 , wherein the navigation sensor is isolated from the lumen. 8. The guidewire of claim 1 , wherein the lumen terminates at a distal wall, wherein the navigation sensor is located distal to the distal wall, wherein the sensor wire extends through the lumen and the distal wall and is coupled to the navigation sensor, wherein the sensor wire is configured to communicate the signal generated by the navigation sensor. 9. The guidewire of claim 1 , wherein the elongate shaft includes a plurality of apertures that are configured to fluidly communicate the lumen with the interior of non-compliant balloon, wherein the apertures are aligned with a medial portion of the non-compliant balloon. 10. The guidewire of claim 1 , wherein the ratio of the maximum outer diameter in the inflated state relative to the maximum outer diameter in the deflated state is at least 6:1. 11. A surgical navigation system comprising: (a) the guidewire of claim 1 ; and (b) a processor in communication with the navigation sensor, wherein the processor is operable to receive and analyze the signal generated by the navigation sensor to determine the location of the distal end of the guidewire within the patient. 12. A guidewire comprising: (a) a guidewire shaft that defines a longitudinal axis, wherein the guidewire shaft includes a lumen; (b) an inflatable element arranged at a distal portion of the guidewire shaft, wherein an interior of the inflatable element fluidly communicates with the lumen, wherein the inflatable element is operable to transition between a deflated state in which the inflatable element is configured to pass through an isthmus of a Eustachian tube (ET), and an inflated state in which the inflatable element is configured to dilate the ET; (c) a navigation sensor, wherein the navigation sensor is operable to generate a signal corresponding to a location of a distal end of the guidewire within a patient; and (d) a sensor wire that extends along the longitudinal axis through the entire inflatable element, wherein the sensor wire is fixably attached with an inner surface of the guidewire shaft within the inflatable element. 13. The guidewire of claim 12 , wherein the navigation sensor comprises an electrically conductive coil. 14. The guidewire of claim 12 , wherein the navigation sensor is arranged distal to a proximal end of the inflatable element. 15. The guidewire of claim 12 , wherein the inflatable element includes a non-compliant balloon, wherein the guidewire is configured to assume a maximum outer diameter of 1 millimeter or less when the non-compliant balloon is in the deflated state, wherein the non-compliant balloon is configured to provide the guidewire with a maximum outer diameter of at least 6 millimeters when the non-compliant balloon is in the inflated state. 16. The guidewire of claim 15 , wherein the ratio of the maximum outer diameter in the inflated state relative to the maximum outer diameter in the deflated state is at least 6:1. 17. The guidewire of claim 12 , wherein the lumen terminates at a distal wall, wherein the navigation sensor is located distal to the distal wall, wherein the sensor wire that extends through the lumen and the distal wall and is coupled to the navigation sensor, wherein the sensor wire is configured to communicate the signal generated by the navigation sensor. 18. The guidewire of claim 12 , wherein the sensor wire is fixably attached to the inner surface of the guidewire shaft using an adhesive. 19. A guidewire comprising: (a) a guidewire shaft, wherein at least a portion of the guidewire shaft is comprised of metal; (b) a non-compliant balloon arranged at a distal portion of the guidewire shaft, wherein the non-compliant balloon is operable to transition between an unexpanded state in which the non-compliant balloon is configured to pass through an isthmus of a Eustachian tube (ET), and an expanded state in which the non-compliant balloon is configured to dilate the ET, wherein the guidewire is configured to assume a maximum outer diameter of 1 millimeter or less when the non-compliant balloon is in the unexpanded state, wherein the non-compliant balloon has a maximum outer diameter of at least 6 millimeters when the non-compliant balloon is in the expanded state to dilate the ET, wherein the ratio of the maximum outer diameter in the expanded state relative to the maximum outer diameter in the unexpanded state is at least 6:1; (c) a navigation sensor operable to generate a signal corresponding to a location of a distal end of the guidewire within a patient; and (d) a sensor wire operatively coupled with the navigation sensor, wherein the sensor wire is fixably attached to an inner surface of the guidewire shaft within the inflatable element. 20. The guidewire of claim 19 , wherein the non-compliant balloon has a working length of approximately 12 millimeters to approximately 24 millimeters.