Surgical access system and related methods

What is claimed is: 1. A retractor assembly for creating an operative corridor to a spinal surgical target site, the retractor assembly comprising: a retractor body including: a first arm having a first longitudinal axis, a first static arm portion, and a first rotating arm portion; and a second arm having a second longitudinal axis, a second static arm portion, and a second rotating arm portion, a plurality of retractor blades extending generally perpendicularly to the retractor body, the plurality of the retractor blades including: a first retractor blade rigidly coupled to a distal end of the first arm and configured to splay such that a distal end of the first retractor blade extends wider than a proximal end of the first retractor blade; a second retractor blade rigidly coupled to a distal end of the second arm and configured to splay such that a distal end of the second retractor blade extends wider than a proximal end of the second retractor blade; and a third retractor blade including an elongate interior slot extending longitudinally therethrough and a disposable stimulation electrode, wherein the third retractor blade is an electrode blade configured to receive the disposable stimulation electrode, and wherein the disposable stimulation electrode is configured to be slideably received within the elongate interior slot of the electrode blade, the disposable stimulation electrode comprising a nonconductive material having a conductive trace extending along a length thereof between a proximal exposed area and a distal exposed area, wherein the first and second arms are movable apart relative to one another to separate the plurality of retractor blades and retract tissue away from an interior of the retractor blades to thereby form the operative corridor to the spinal surgical target site, wherein the first rotating arm portion and the first retractor blade rigidly coupled to the first rotating arm portion are configured to rotate about the first longitudinal axis, and wherein the second rotating arm portion and the second retractor blade rigidly coupled to the second rotating arm portion are configured to rotate about the second longitudinal axis. 2. The retractor assembly of claim 1 , wherein the third retractor blade is not splayable. 3. The retractor assembly of claim 1 , wherein the first arm includes a restrictor to limit a range of angulation through which the first retractor blade can travel. 4. The retractor assembly of claim 3 , wherein the second arm includes a restrictor to limit a range of angulation through which the second retractor blade can travel. 5. The retractor assembly of claim 4 , wherein a range of angulation through which the first and second retractor blades can travel is between 0 and 20 degrees for each of the first and second retractor blades. 6. The retractor assembly of claim 3 , wherein the restrictor comprises an extension of a first width situated at a distal end of the first static arm portion disposed within a recess of a second width greater than the first width situated at a proximal end of the first rotating arm portion. 7. The retractor assembly of claim 1 , wherein the first arm and the second arm are coupled to each other about a pivot. 8. The retractor assembly of claim 1 , wherein the retractor assembly includes a third arm and the third retractor blade is rigidly coupled to the third arm. 9. The retractor assembly of claim 8 , wherein the third arm is a translating arm that translates relative to a pivot about which the first and second arms are coupled. 10. The retractor assembly of claim 1 , wherein the proximal exposed area is configured to be in electrical communication with a nerve monitoring system. 11. The retractor assembly of claim 10 , wherein the electrode blade further comprises an aperture connecting to the elongate interior slot near a distal end of the electrode blade. 12. The retractor assembly of claim 11 , wherein the distal exposed area of the disposable electrode is configured to align with the aperture of the electrode blade. 13. The retractor assembly of claim 1 , wherein the electrode blade includes a second slot extending longitudinally along an interior surface and configured to slideably receive a blade accessory while the disposable electrode is coupled to the electrode blade. 14. The retractor assembly of claim 13 , wherein the blade accessory is an intradiscal shim. 15. A retractor assembly for creating an operative corridor to a spinal surgical target site, the retractor assembly comprising: a retractor body including: a first arm having a first longitudinal axis, a first static arm portion, and a first rotating arm portion; and a second arm having a second longitudinal axis, a second static arm portion, and a second rotating arm portion, a plurality of retractor blades extending generally perpendicularly to the retractor body, the plurality of the retractor blades including: a first retractor blade rigidly coupled to a distal end of the first arm and configured to splay such that a distal end of the first retractor blade extends wider than a proximal end of the first retractor blade; a second retractor blade rigidly coupled to a distal end of the second arm and configured to splay such that a distal end of the second retractor blade extends wider than a proximal end of the second retractor blade; and an electrode blade configured to receive a disposable stimulation electrode, the electrode blade including: the disposable stimulation electrode; a first elongate slot; and a second elongate slot extending longitudinally along an interior surface and being configured to slideably receive a blade accessory while the disposable electrode is coupled to the electrode blade; wherein the first and second arms are movable apart relative to one another to separate the plurality of retractor blades and retract tissue away from an interior of the retractor blades to thereby form the operative corridor to the surgical target site, wherein the first rotating arm portion and the first retractor blade rigidly coupled to the first rotating arm portion are configured to rotate about the first longitudinal axis, and wherein the second rotating arm portion and the second retractor blade rigidly coupled to the second rotating arm portion are configured to rotate about the second longitudinal axis. 16. The retractor assembly of claim 15 , wherein the electrode blade is not configured to splay. 17. The retractor assembly of claim 15 , wherein the first arm includes a first restrictor configured to limit a range of angulation through which the first retractor blade can travel; and wherein the second arm includes a second restrictor configured to limit a range of angulation through which the second retractor blade can travel. 18. An apparatus comprising: a first arm having a first longitudinal axis, a first static arm portion, and a first rotating arm portion; a second arm having a second longitudinal axis, a second static arm portion, and a second rotating arm portion; a first retractor blade rigidly coupled to a distal end of the first arm and configured to splay such that a distal end of the first retractor blade extends wider than a proximal end of the first retractor blade; a second retractor blade rigidly coupled to a distal end of the second arm and configured to splay such that a distal end of the second retractor blade extends wider than a proximal end of the second retractor blade; and a third retractor blade configured to receive a disposable electrode, th