Surgical access system and related methods

What is claimed is: 1. A method of forming an operative corridor through a psoas muscle along a substantially lateral, trans-psoas path for insertion of a spinal implant in a targeted spinal disc space, the method comprising: while a user's finger is inserted through a skin incision, moving a tip portion of the user's finger through bodily tissue in a retroperitoneal space that is generally lateral from a psoas muscle and a targeted spinal disc space and advancing the tip portion of the user's finger to contact the psoas muscle; advancing a dilator system along a substantially lateral, trans-psoas path to the targeted spinal disc space, the dilator system comprising: a first cannulated dilator that is advanced laterally through the psoas muscle to the targeted spinal disc space, one or more sequential dilators that are advanced along the substantially lateral, trans-psoas path, wherein the first cannulated dilator comprises a central lumen configured to receive an elongate inner member, and wherein one or more of said first cannulated dilator, said one or more sequential dilators, and said elongate inner member includes a stimulation electrode that outputs electrical stimulation for nerve monitoring when the stimulation electrode is positioned in the substantially lateral, trans-psoas path; slidably advancing a multi-blade retractor assembly over an outermost dilator of the dilator system toward the targeted spinal disc space along the substantially lateral, trans-psoas path, the multi-blade retractor assembly including a blade adjuster apparatus and a plurality of retractor blades extending from the blade adjuster apparatus, wherein the plurality of retractor blades are slidably advanced over the outermost dilator while in a first position in which the plurality of retractor blades are configured to simultaneously slide over the outermost dilator of the dilator system, wherein the blade adjuster apparatus is operable to adjust the plurality of retractor blades to a second position in which a first retractor blade is moved away from a second retractor blade; removing at least a portion of the dilator system after the multi-blade retractor assembly is advanced through the psoas muscle, wherein a trans-psoas operative corridor along the substantially lateral, trans-psoas path to the targeted spinal disc space is at least partially defined by the plurality of retractor blades; inserting a spinal implant that is releasably secured to an inserter tool through the trans-psoas operative corridor maintained by the multi-blade refractor assembly along the substantially lateral, trans-psoas path to the targeted spinal disc space; and releasing the spinal implant from the inserter tool when the spinal implant is positioned in the targeted spinal disc space. 2. The method of claim 1 , further comprising moving arm portions of the blade adjuster apparatus so that the plurality of retractor blades are adjusted to the second position before the step of inserting the spinal implant. 3. The method of claim 2 , further comprising releasably engaging a fixation element with one of the plurality of retractor blades so that at least a portion of the fixation element extends distally from the one of the plurality of retractor blades and anchors into a portion of the spine. 4. The method of claim 3 , wherein the fixation element comprises a posterior shim element that releasably engages with a posterior-most retractor blade of the plurality of retractor blades. 5. The method of claim 3 , further comprising releasably engaging retractor blade extenders with corresponding retractor blades of the plurality of retractor blades, the retractor blade extenders being different from the fixation element. 6. The method of claim 1 , wherein the step of moving the tip portion of the user's finger through the bodily tissue separates fatty tissue before the dilator system is advanced into the retroperitoneal space. 7. The method of claim 1 , further comprising activating one or more light emitting devices to direct light through the trans-psoas operative corridor toward the targeted spinal disc space, each of the one or more light emitting device being releasably coupled to a respective one of the plurality of retractor blades. 8. The method of claim 1 , further comprising inserting at least one preparation tool through the trans-psoas operative corridor formed by the multi-blade retractor assembly along the substantially lateral, trans-psoas path so as to remove a portion of a spinal disc from the targeted spinal disc space. 9. The method of claim 8 , further comprising inserting a sizer instrument into the targeted spinal disc space before the spinal implant is inserted into the targeted spinal disc space. 10. The method of claim 1 , wherein the blade adjuster apparatus comprises: two pivotable arm portions and a knob element that is rotatable relative to a linear rack member having teeth. 11. The method of claim 1 , wherein the elongate inner member is deliverable along the substantially lateral, trans-psoas path to the targeted spinal disc space such that a distal tip portion of the elongate inner member penetrates into an annulus of a spinal disc at the targeted spinal disc space. 12. The method of claim 1 , wherein the elongate inner member comprises a K-wire. 13. The method of claim 1 , wherein the first cannulated dilator is advanced to the targeted spinal disc space together with the elongate inner member received within the central lumen of the first cannulated dilator. 14. The method of claim 1 , wherein when the multi-blade refractor assembly is in the first position, each retractor blade of the plurality of retractor blades at least partially abuts a neighboring retractor blade of the plurality of retractor blades. 15. The method of claim 1 , wherein the skin incision through which the user's finger is inserted is different from a skin penetration point of the first cannulated dilator. 16. The method of claim 1 , further comprising: activating a nerve monitoring system that delivers an electrical stimulation signal to the stimulation electrode of the first cannulated dilator during delivery of the first cannulated dilator along the substantially lateral, trans-psoas path to the lumbar spine, the nerve monitoring system detecting neuromuscular responses via a set of sensors in leg muscle myotomes associated with nerves in the vicinity of the targeted spinal disc space; and during advancement of the first cannulated dilator through the psoas muscle, viewing a video display device of the nerve monitoring system that displays a numeric stimulation threshold that changes in response to the detection of said neuromuscular responses via said set of sensor in said leg muscle myotomes. 17. The method of claim 1 , further comprising: activating a nerve monitoring system that delivers an electrical stimulation signal to the stimulation electrode of the elongate inner member during delivery of the elongate inner member along the substantially lateral, trans-psoas path to the lumbar spine, the nerve monitoring system detecting neuromuscular responses via a set of sensors in leg muscle myotomes associated with nerves in the vicinity of the targeted spinal disc space; and during advancement of the elongate inner member through the psoas muscle, viewing a video display device of the nerve monitoring system that displays a numeric stimulation threshold that changes in response to the detection of said neuromuscular responses via said set of sensor in said leg muscle myotomes. 18. The method of claim 1