Arthroscopic cutting blade

What is claimed is: 1. A method for controlling a surgical instrument comprising: rotationally oscillating an inner member of a plurality of elongated cylindrical members, the cylindrical members including the inner member concentrically disposed within an outer member, the rotationally oscillating engages a first pair of cutting edges on the inner member with a pair of cutting edges on the outer member; and thereafter rotating the inner member relative to the outer member to place a second pair of cutting edges on the inner member in operational relationship with the pair of cutting edges on the outer member; and then rotationally oscillating the inner member and thereby engaging the second pair of cutting edges on the inner member with the pair of cutting edges on the outer member. 2. The method of claim 1 wherein rotationally oscillating, prior to rotating the inner member relative outer member, further comprises rotationally oscillating the inner member through a cutting range to dispose the cutting edges of the first pair of cutting edges repeatedly with the pair of cutting edges on outer member without engagement by the second pair of cutting edges on the inner member with the pair of cutting edges on the outer member. 3. The method of claim 2 wherein after rotating the inner member relative outer member, the method further comprises rotationally oscillating the inner member through a cutting range to dispose the cutting edges of the second pair of cutting edges repeatedly with the pair of cutting edges on outer member without engagement by the first pair of cutting edges of the inner member with the pair of cutting edges of the outer member. 4. The method of claim 1 wherein rotating the inner member relative to the outer member further comprises rotating the inner member to align the second pair of cutting edges with the pair of cutting edges on the outer member and proximate to an extraction area. 5. The method of claim 1 further comprising determining position of the first pair of cutting edges relative to the pair of cutting edges on the outer member by an angular position the inner member. 6. The method of claim 5 wherein rotationally oscillating the inner member with the first pair of cutting edges engaged with the pair of cutting edges on the outer member further comprises rotationally oscillating the first pair of cutting edges defined by a first cutout in an annular surface of the inner member. 7. The method of claim 6 wherein rotationally oscillating the inner member with the second pair of cutting edges engaged with the pair of cutting edges on the outer member further comprises rotationally oscillating the second pair of cutting edges defined by a second cutout in an annular surface of the inner member. 8. The method of claim 5 further comprising determining position of the second pair of cutting edges relative to the pair of cutting edges on the outer member by an angular position the inner member. 9. A method for controlling a surgical instrument comprising: rotationally oscillating an inner member of a plurality of elongated cylindrical members, the cylindrical members including the inner member concentrically disposed within an outer member and the outer member being an outermost element of the surgical instrument, the rotationally oscillating engages a pair of cutting edges on the inner member with a first pair of cutting edges on the outer member; and thereafter rotating the inner member relative to the outer member to place a second pair of cutting edges on the outer member in operational relationship with the pair of cutting edges on the inner member; and then rotationally oscillating the inner member and thereby engaging the second pair of cutting edges on the outer member with the pair of cutting edges on the inner member. 10. The method of claim 9 wherein rotating the inner member relative to the outer member further comprises rotating the inner member to align the second pair of cutting edges with the pair of cutting edges on the inner member and proximate to an extraction area. 11. The method of claim 9 wherein rotationally oscillating the inner member with the pair of cutting edges of the inner member engaged with the first pair of cutting edges on the outer member further comprises rotationally oscillating the pair of cutting edges of the inner member relative to a first cutout in an annular surface of the outer member. 12. The method of claim 11 wherein rotationally oscillating the inner member with the pair of cutting edges engaged with the second pair of cutting edges of the outer member further comprises rotationally oscillating the pair of cutting edges of the inner member relative to a second cutout in an annular surface of the outer member. 13. A method for controlling a surgical instrument comprising: rotationally oscillating an inner member of a plurality of elongated cylindrical members, the cylindrical members including the inner member concentrically disposed within an outer member, the rotationally oscillating engages a pair of cutting edges on the inner member with a first pair of cutting edges on the outer member, the rotationally oscillating through a cutting range to dispose cutting edges of the pair of cutting edges on the inner member repeatedly with the first pair of cutting edges on outer member without engagement by on the second pair of cutting edges on the outer member with the pair of cutting edges on the inner member; and thereafter rotating the inner member relative to the outer member to place a second pair of cutting edges on the outer member in operational relationship with the pair of cutting edges on the inner member; and then rotationally oscillating the inner member and thereby engaging the second pair of cutting edges on the outer member with the pair of cutting edges on the inner member. 14. The method of claim 13 wherein after rotating the inner member relative outer member, the method further comprises rotationally oscillating the inner member through a cutting range to dispose the cutting edges of the second pair of cutting edges on the outer member repeatedly with the pair of cutting edges on inner member without engagement by the first pair of cutting edges of the outer member with the pair of cutting edges of the inner member. 15. A method for controlling a surgical instrument comprising: rotationally oscillating an inner member of a plurality of elongated cylindrical members, the cylindrical members including the inner member concentrically disposed within an outer member, the rotationally oscillating engages a pair of cutting edges on the inner member with a first pair of cutting edges on the outer member; determining position of the first pair of cutting edges relative to the pair of cutting edges on the inner member by an angular position the inner member; and thereafter rotating the inner member relative to the outer member to place a second pair of cutting edges on the outer member in operational relationship with the pair of cutting edges on the inner member; and then rotationally oscillating the inner member and thereby engaging the second pair of cutting edges on the outer member with the pair of cutting edges on the inner member. 16. The method of claim 15 further comprising determining position of the second pair of cutting edges relative to the pair of cutting edges on the inner member by an angular position the inner member.