Minimally invasive posterolateral fusion

What is claimed is: 1. A system for minimally invasive spinal fusion, comprising: a pedicle screw extension assembly comprising a multi-axial pedicle screw and an elongate screw extension, said multi-axial screw including a threaded shaft having a yoke articulatingly and rotatably attached to said screw shaft, said elongate screw extension being releasably coupled to said yoke of said screw for articulation and rotation of said extension about said screw shaft, said elongate extension defining a first longitudinal axis along the length of said extension; and a tubular retractor releasably attached to said extension for joint articulation and rotation with said extension about said screw shaft, said tubular retractor including an access port having a perimetric wall defining a pathway therethrough configured for access and visualization, said pathway having a second longitudinal axis offset from said first longitudinal axis of said screw extension, said perimetric wall enclosing said pathway at least half-way around said second longitudinal axis, said tubular retractor comprising an attachment portion monolithically joined with and offset from said access port, said attachment portion defining a third longitudinal axis, said third longitudinal axis being coaxial with said first longitudinal axis of said screw extension, said attachment portion of said tubular retractor being cooperatively keyed to said pedicle screw extension in a manner to prevent relative rotation therebetween and allow relative axial movement therebetween, said tubular retractor having a distal end and a proximal end, said access port having a length along said second longitudinal axis and said attachment portion having a length along said third longitudinal axis, the length of said access port and said attachment portion being different, said attachment portion extending longitudinally from said distal end to said proximal end, and said access port extending from said distal end for a length along said tubular retractor toward said proximal end, the length of said access port being less than the length of said attachment portion. 2. The system of claim 1 , wherein said access port extends longitudinally from said distal end to said proximal end, said attachment portion comprising a first attachment element adjacent said distal end and a second attachment element adjacent said proximal end, said first attachment element being longitudinally spaced from said second attachment element. 3. The system of claim 2 , wherein the longitudinal space between said first attachment element and said second attachment element defines a side opening in communication with said pathway. 4. A system for minimally invasive spinal fusion, comprising: a pedicle screw extension assembly comprising a multi-axial pedicle screw and an elongate screw extension, said multi-axial screw including a threaded shaft having a yoke articulatingly and rotatably attached to said screw shaft, said elongate screw extension being releasably coupled to said yoke of said screw for articulation and rotation of said extension about said screw shaft, said elongate extension defining a first longitudinal axis along the length of said extension; and a tubular retractor releasably attached to said extension for joint articulation and rotation with said extension about said screw shaft, said tubular retractor having a distal end and a proximal end and including an access port having a perimetric wall defining a pathway therethrough configured for access and visualization, said pathway having a second longitudinal axis offset from said first longitudinal axis of said screw extension, said perimetric wall enclosing said pathway at least half-way around said second longitudinal axis, said tubular retractor comprising an attachment portion monolithically joined with and offset from said access port, said attachment portion defining a third longitudinal axis, said third longitudinal axis being coaxial with said first longitudinal axis of said screw extension, wherein said attachment portion extends longitudinally from said distal end to said proximal end and said access port extends from said distal end for a length along said tubular retractor toward said proximal end, the length of said access port being less than the length of said attachment portion. 5. The system of claim 4 , wherein said attachment portion comprises a curved open channel and wherein said wall of said access port substantially encloses said pathway. 6. The system of claim 5 , wherein said access port has a first side opening defined by a first window extending through said wall in communication with said pathway, said first window being configured for receipt of a tissue preparation instrument and delivery of bone graft material. 7. The system of claim 6 , wherein said access port has a second side opening defined by a second window extending through said wall in communication with said pathway. 8. The system of claim 7 , wherein said access port further includes an angular window guide channel communicating with said first window. 9. The system of claim 7 , wherein said attachment portion includes a side opening defined by an angular side access port having a guide channel extending through and intersecting said third axis. 10. The system of claim 9 , wherein said elongate screw extension has a lumen extending longitudinally from said distal end to said proximal end and a pair of opposed longitudinal slots extending through said extension in communication with said lumen, said angular side access guide channel communicating through said slots and said lumen of said extension with said pathway of said access port.