Hollow tube surgical instrument with single axis sensor

We claim: 1. An apparatus comprising: (a) an elongate shaft defining a longitudinal axis, the elongate shaft including: (i) a distal end, (ii) an opening, and (iii) a lumen configured to provide suction to the opening; and (b) a first position sensor, the first position sensor being laterally offset from the longitudinal axis, the first position sensor being fixedly secured to the elongate shaft at a first known distance from the opening, the first position sensor being configured to generate signals indicating a position of the elongate shaft in three-dimensional space; (c) a second position sensor, the second position sensor being laterally offset from the longitudinal axis and longitudinally offset from the first position sensor, the second position sensor being fixedly secured relative to the elongate shaft at a second known distance from the opening, the second position sensor being configured to generate signals indicating the position of the elongate shaft in three-dimensional space; and (d) a third position sensor, the third position sensor being laterally offset from the longitudinal axis, the third position sensor being fixedly secured relative to the elongate shaft at a third known distance from the opening, the third position sensor being configured to generate signals indicating the position of the elongate shaft in three-dimensional space; the first, second, and third position sensors being arranged along a helix extending about the longitudinal axis and, the first position sensor comprising a first wire coil wrapped about a first coil axis, the second position sensor comprising a second wire coil wrapped about a second coil axis, the first coil axis being parallel with the longitudinal axis, the second coil axis being perpendicular to the first coil axis. 2. The apparatus of claim 1 , the distal end being closed, the opening being proximal to the distal end. 3. The apparatus of claim 1 , further comprising a cutting element disposed in the lumen, the cutting element being configured to sever tissue protruding through the opening of the elongate shaft. 4. The apparatus of claim 3 , the cutting element including a laterally oriented window with a cutting edge, the opening of the elongate shaft being laterally oriented and including an edge configured to cooperate with the cutting edge to thereby sever the tissue protruding through the opening of the elongate shaft. 5. The apparatus of claim 3 , the cutting element being configured to rotate within the lumen to thereby sever the tissue protruding through the opening of the elongate shaft. 6. The apparatus of claim 1 , further comprising a vacuum source in fluid communication with the lumen, the elongate shaft being operable to apply suction from the vacuum source through the opening of the elongate shaft. 7. The apparatus of claim 1 , the wire coil being configured to generate an electrical signal in response to an alternating magnetic field, the electrical signal indicating the position of the elongate shaft in three-dimensional space. 8. The apparatus of claim 1 , the first coil axis being parallel with the longitudinal axis of the elongate shaft. 9. The apparatus of claim 1 , the second position sensor being in electrical communication with the first position sensor through an electrical node. 10. The apparatus of claim 1 , the first and second position sensors being angularly offset from each other about the longitudinal axis. 11. The apparatus of claim 1 , the first and second position sensors being both located at the same radial position along a length of the elongate shaft. 12. The apparatus of claim 1 , the elongate shaft being operable to bend. 13. An apparatus comprising: (a) an elongate shaft defining a longitudinal axis, the elongate shaft including: (i) a distal end, (ii) an opening, and (iii) a lumen; (b) a first position sensor, the first position sensor being laterally offset from the longitudinal axis, the first position sensor being fixedly secured relative to the elongate shaft at a first known distance from the opening, the first position sensor being configured to generate signals indicating a position of the elongate shaft in three-dimensional space; and (c) a second position sensor, the second position sensor being laterally offset from the longitudinal axis, the second position sensor being fixedly secured relative to the elongate shaft at a second known distance from the opening, the second position sensor being configured to generate signals indicating the position of the elongate shaft in three-dimensional space; the first position sensor being offset from the second position sensor along a longitudinal dimension and an angular dimension; (d) a third position sensor, the third position sensor being laterally offset from the longitudinal axis, the third position sensor being fixedly secured relative to the elongate shaft at a third known distance from the opening, the third position sensor being configured to generate signals indicating the position of the elongate shaft in three-dimensional space; (e) a handle assembly, the elongate shaft extending distally from the handle assembly, the handle assembly including a memory device configured to store calibration data indicating the first and second known distances; the first, second, and third position sensors being arranged along a helix extending about the longitudinal axis and, the first position sensor comprising a first wire coil wrapped about a first coil axis, the second position sensor comprising a second wire coil wrapped about a second coil axis, the first coil axis being parallel with the longitudinal axis, the second coil axis being perpendicular to the first coil axis.