Systems and methods for performing image guided procedures within the ear, nose, throat and paranasal sinuses

What is claimed is: 1. A method for image guided performance of a treatment procedure to treat an ear, nose, throat or paranasal sinus in a patient, the method comprising: (a) using a monitor of an image guidance system to view an image of the patient's head; (b) calibrating the position of the patient's head using a plurality of fiducial markers; (c) using the monitor of the image guidance system to view the positions of the fiducial markers relative to the image of the patient's head; (d) coupling a first working device to a computer of the image guidance system, wherein the first working device comprises a sensor at a distal end portion of the first working device, wherein the first working device communicates at least one calibration detail to the computer upon being coupled thereto; (e) operating a transmitter assembly positioned outside of the patient's head to emit an electromagnetic field; (f) inserting the first working device into the patient's head through the patient's nostril so that the sensor is within the patient's head; (g) determining a position of the sensor within the patient's head based upon an interaction of the sensor with the electromagnetic field and the at least one calibration detail and viewing a portion of the first working device on the monitor relative to the image of the patient's head based on the position of the sensor; and (h) using at least the first working device to treat the ear, nose, throat, or paranasal sinus of the patient while viewing the monitor, wherein using at least the first working device to treat the ear, nose, throat, or paranasal sinus of the patient comprises dilating an anatomical passageway within the ear, nose, or throat of the patient. 2. The method of claim 1 , further comprising scanning the patient's head prior to a procedure to obtain an image of the patient's head. 3. The method of claim 1 , wherein the at least one calibration detail comprises a distance between the sensor and another portion of the first working device. 4. The method of claim 3 , wherein the at least one calibration detail comprises a position of the sensor relative to the distal end portion of the first working device. 5. The method of claim 1 , wherein the at least one calibration detail comprises a length of at least a portion of the working device. 6. The method of claim 1 , wherein the at least one calibration detail comprises a baseline output of the sensor. 7. The method of claim 1 , wherein the at least one calibration detail is stored on a readable device on the first working device. 8. The method of claim 7 , wherein the readable device comprises a radio-frequency identification tag, the method further comprising automatically reading the at least one calibration detail from the radio-frequency identification tag after coupling the first working device to the computer. 9. The method of claim 1 , wherein coupling the first working device to the computer comprises physically and electronically coupling the first working device to the computer via a wire. 10. The method of claim 1 , further comprising inserting an endoscope into the patient's head through the patient's nostril to directly visualize the first working device within the patient's head. 11. The method of claim 10 , further comprising, while viewing the image of the patient's head on the first monitor, using a second monitor that is communicated with the endoscope to view images captured by the endoscope of the first working device within the patient's head, wherein the image of the patient's head on the first monitor is a preoperatively captured image. 12. The method of claim 1 , further comprising: (a) inserting a second working device into the patient's head through the patient's nostril; and (b) viewing a portion of the second working device on the monitor relative to the image of the patient's head and relative to the sensor. 13. The method of claim 12 , wherein the first working device comprises a guide tube, wherein the second working device comprises a balloon catheter, wherein inserting the second working device into the patient's head through the patient's nostril comprises inserting the balloon catheter through the guide tube. 14. The method of claim 13 , wherein treating the ear, nose, throat, or paranasal sinus of the patient comprises dilating a sinus ostium with the balloon catheter. 15. The method of claim 1 , further comprising inserting a guidewire into the patient's head prior to inserting the first working device, wherein the guidewire comprises a second sensor configured to interact with the electromagnetic field when positioned inside the patient's head. 16. The method of claim 15 , wherein inserting the first working device into the patient's head comprises inserting the first working device over the guidewire. 17. A method for image guided performance of a treatment procedure to treat an ear, nose, throat or paranasal sinus in a patient, the method comprising: (a) using a monitor of an image guidance system to view an image of the patient's head; (b) calibrating a position of the patient's head using a plurality of fiducial markers; (c) using the monitor of the image guidance system to view the positions of the fiducial markers relative to the image of the patient's head; (d) coupling a guidewire to a computer of the image guidance system, wherein the guidewire comprises a first sensor, wherein the guidewire communicates at least one calibration detail associated with the guidewire to the computer upon being coupled thereto; (e) operating a transmitter assembly positioned outside of the patient's head to emit an electromagnetic field; (f) inserting the guidewire into the patient's head through the patient's nostril; (g) coupling a balloon catheter to the computer, wherein the balloon catheter comprises a second sensor, wherein the balloon catheter communicates at least one calibration detail associated with the balloon catheter to the computer upon being coupled thereto; (h) viewing a portion of the guidewire on the monitor relative to the image of the patient's head based on the at least one calibration detail associated with the guidewire and a position of the first or second sensor that is determined based upon an interaction of that sensor with the electromagnetic field; (i) viewing a portion of the balloon catheter on the monitor relative to the image of the patient's head based on the at least one calibration detail associated with the balloon catheter and a position of the first or second sensor that is determined based upon an interaction of that sensor with the electromagnetic field; and (j) treating the ear, nose, throat, or paranasal sinus of the patient with the balloon catheter, wherein treating the ear, nose, throat or paranasal sinus of the patient with the balloon catheter comprises dilating an anatomical passageway within the ear, nose, or throat of the patient. 18. A method for image guided performance of a treatment procedure to treat an ear, nose, throat or paranasal sinus in a patient, the method comprising: (a) loading scan image data of a patient's head onto a computer of an image guidance system; (b) displaying a scan image from the scan image data on a monitor of the image guidance system; (c) loading calibration details associated with one or more working devices onto the computer; (d) inserting a first working device of the one or more working devices into the patient's head, wherein the first working device comprises a guidewire and a first sensor positioned at a distal tip of the gu