Shaver with blood vessel and nerve monitoring features

We claim: 1. A method of cutting a first tissue proximate to a second tissue with a surgical instrument including a shaft, a cutting member, and a tissue monitor system, the shaft extending along a longitudinal axis and including a cylindrical body having a distal edge and a shaft lumen extending along the longitudinal axis and a shaft opening in fluid communication with an environment and the shaft lumen, the cutting member being disposed within the shaft lumen and configured to cyclically move from a first position to a second position relative to the shaft, the cutting member being configured to cut a tissue portion of the first tissue for removal therefrom, the tissue monitor system being associated with at least one of the shaft or the cutting member, the tissue monitor system being configured to detect the second tissue distinct from the first tissue, the method comprising: (a) cutting the tissue portion from the first tissue with the cutting member; (b) detecting at the distal edge the second tissue with the tissue monitor system while cutting the tissue portion from the first tissue; and (c) ceasing movement of the cutting member after detecting the second tissue to thereby inhibit cutting the second tissue. 2. The method of claim 1 , the tissue monitor system including a first tissue sensor. 3. The method of claim 2 , the first tissue sensor including an ultrasound sensor, the method further comprising: detecting the second tissue using the ultrasound sensor, wherein the second tissue being in the form of a blood vessel. 4. The method of claim 2 , the first tissue sensor including an infrared sensor, the method further comprising: detecting the second tissue using the infrared sensor, the second tissue being in the form of a blood vessel. 5. The method of claim 2 , the first tissue sensor being elongate and extending along a majority of a length of the shaft opening. 6. The method of claim 1 , further comprising: (a) coupling a vacuum source with the shaft lumen; and (b) activating the vacuum source to create a vacuum suction within the shaft lumen. 7. The method of claim 6 , further comprising: extracting the cut tissue portion from the shaft lumen via the vacuum suction. 8. The method of claim 1 , the tissue monitor system including a second tissue sensor. 9. The method of claim 1 , the tissue monitor system further including a controller operatively connected to the tissue monitor system and a motorized drive assembly, the motorized drive assembly being configured to cyclically move the cutting member within the shaft lumen, the method further including: communicating, via the tissue monitor system, a tissue detection signal to the controller indicative of the detection of the second tissue. 10. The method of claim 9 , further comprising: in response to the controller receiving the tissue detection signal, wirelessly communicating, via a communication unit, the tissue detection signal to a processor for data processing. 11. The method of claim 9 , further comprising: in response to the controller receiving the tissue detection signal, communicating, via the controller, a drive stop signal to the motorized drive assembly to cease driving the cutting member. 12. The method of claim 1 , the tissue monitor system including a feedback device, the method further comprising: indicating the detection of the second tissue to an operator. 13. The method of claim 12 , the feedback device including a display, the method further comprising: visually indicating the detection of the second tissue to the operator via the display. 14. The method of claim 12 , the feedback device including a projector, the method further comprising: projecting the detection of the second tissue onto a human anatomy via the projector. 15. The method of claim 1 , the cutting member including a drill having a plurality of cutting edges, the method further comprising: projecting the drill distally from the shaft opening to cut the tissue portion from the first tissue. 16. A method of cutting a first tissue proximate to a second tissue with a surgical instrument including a shaft, a cutting member, and a tissue monitor system, the shaft extending along a longitudinal axis and including a shaft lumen extending along the longitudinal axis and a shaft opening in fluid communication with an environment and the shaft lumen, the shaft lumen being coupled with a vacuum source, the cutting member being disposed within the shaft lumen and configured to cyclically move from a first position to a second position relative to the shaft, the cutting member being configured to cut a tissue portion of the first tissue for removal therefrom, the tissue monitor system being associated with at least one of the shaft or the cutting member, the tissue monitor system being configured to detect the second tissue distinct from the first tissue, the method comprising: (a) activating the vacuum source to create a vacuum suction within the shaft lumen; (b) aspirating the tissue portion of the first tissue into the shaft lumen; (c) activating the cutting member so as to begin cyclical movement of the cutting member; (d) cutting the tissue portion of the first tissue once aspirated inside the shaft lumen; (e) detecting the second tissue with the tissue monitor system; and (f) ceasing movement of the cutting member in response to detecting the second tissue to thereby inhibit cutting the second tissue. 17. The method of claim 16 , the tissue monitor system including an electrode, the method further comprising: detecting the second tissue using the electrode, the second tissue being in the form of a nerve tissue. 18. The method of claim 16 , the tissue monitor system including an infrared sensor, the method further comprising: detecting the second tissue using the infrared sensor, the second tissue being in the form of a blood vessel. 19. The method of claim 16 , the tissue monitor system including a feedback device, the method further comprising: indicating the detection of the second tissue to an operator. 20. A method of cutting a first tissue proximate to a second tissue with a surgical instrument including a shaft, a cutting member, and a tissue monitor system, the shaft extending along a longitudinal axis and including a shaft lumen extending along the longitudinal axis and a shaft opening in fluid communication with an environment and the shaft lumen, the shaft lumen being coupled with a vacuum source, the cutting member including a distal most tip and being disposed within the shaft lumen and configured to cyclically move from a first position to a second position relative to the shaft, the cutting member being configured to cut a bone portion of the first tissue for removal therefrom, the tissue monitor system being associated with at least one of the shaft or the cutting member, the tissue monitor system being configured to detect the second tissue distinct from the first tissue, the method comprising: (a) activating the cutting member so as to begin cyclical movement of the distal most tip of the cutting member to cut the bone portion of the first tissue; (b) detecting the second tissue with the tissue monitor system, the second tissue including at least one of a nerve tissue or a blood vessel; (c) indicating the detection of the second tissue to an operator; and (d) ceasing movement of the cutting member after detecting the second tissue to thereby inhibit cutting the second tissue.