Minimally invasive fixation system

What is claimed is: 1. A minimally invasive fixation system comprising: a tissue protection portion configured to be mounted to a bone anchor, the tissue protection portion comprising a proximal end, a distal end spaced from the proximal end along an axis that is oriented along a direction, and a wall that extends along the axis from the proximal end to the distal end, the wall defining an outer perimeter that extends about the axis along a plane that is normal to the axis, wherein the wall has a proximal portion and a distal portion spaced from the proximal portion along the axis, such that the distal portion of the wall terminates at the distal end of the tissue protection portion with respect to the direction, wherein 1) at an entirety of the distal portion, the outer perimeter extends about the axis a first distance, such that at no location at the proximal portion does the outer perimeter extend about the central axis a distance that is greater than or equal to the first distance, 2) the outer perimeter does not extend completely about the axis at the proximal portion, and 3) the outer perimeter does not extend completely about the axis at the distal portion. 2. The minimally invasive fixation system of claim 1 , wherein the tissue protection portion is a first tissue protection portion, the wall is a first wall, the axis is a first axis, the passageway is a first passageway, the proximal portion is a first proximal portion, the distal portion is a first distal portion, the bone anchor is a first bone anchor, and the direction is a first direction, the minimally invasive fixation system further comprising: a second tissue protection portion configured to be mounted to a second bone anchor, the second tissue protection portion comprising a second wall. 3. The minimally invasive fixation system of claim 2 , wherein the second wall has a second proximal portion and a second distal portion, the second wall defines a second axis that extends along a second direction from the second proximal portion to the second distal portion, the second wall extends around the second axis to define a second passageway, and the second proximal portion does not extend as far around the second axis as the second distal portion. 4. The minimally invasive fixation system of claim 3 , wherein the second direction is opposite to the first direction. 5. The minimally invasive fixation system of claim 3 , wherein: the first distal portion extends around the first axis between about 250 degrees to about 300 degrees, and the second distal portion extends around the second axis between about 250 degrees to about 300 degrees. 6. The minimally invasive fixation system of claim 5 , wherein the first and second distal portions each extend about 270 degrees around the first and second axes, respectively. 7. The minimally invasive fixation system of claim 5 , wherein the first and second walls each define an edge, a portion of the edge being inclined with respect to the first and second axes, respectively, wherein the first and second walls transition from the first and second proximal portions, respectively, to an intermediate point via the respective inclined portions of each edge. 8. The minimally invasive fixation system of claim 2 , wherein the first tissue protection portion is configured to be attached to a first implant holder, and the second tissue protection portion is configured to be attached to a second implant holder, each of the first and second implant holders having a distal end sized and configured to selectively receive at least one of the first and second bone anchors. 9. The minimally invasive fixation system of claim 2 , further comprising a holding sleeve including a handle and an elongated member, wherein the elongated member has a distal end constructed and arranged to selectively contact one of the first and second bone anchors such that the contacted bone anchor is not pivotable relative to the respective tissue protection portion. 10. The minimally invasive fixation system of claim 9 , wherein the elongated member has a passageway therethrough, the passageway of the elongated member being sized and configured to receive a driving mechanism, the driving mechanism being constructed and arranged to engage the contacted bone anchor to drive the contacted bone anchor into the bone. 11. The minimally invasive fixation system of claim 2 , further comprising a movement mechanism configured to move the first bone anchor relative to the second bone anchor. 12. The minimally invasive fixation system of claim 11 , wherein the movement mechanism has a first member configured to contact the first bone anchor, a second member configured to contact the second bone anchor, and a bar extending from the first member, the second member being displaceable relative to the bar, wherein displacement of the second member relative to the bar results in displacement of the second member relative to the first member. 13. The minimally invasive fixation system of claim 12 , wherein the movement mechanism further comprises an actuation mechanism constructed and arranged to move along the bar, the actuation mechanism being operably associated with the second member and the bar to move the second member as the actuation mechanism moves along the bar. 14. The minimally invasive fixation system of claim 13 , wherein the bar has teeth and the actuation mechanism has a knob and a gear, the knob contacting the gear, and the gear contacting the teeth such that rotation of the knob moves the gear along the teeth. 15. The minimally invasive fixation system of claim 13 , wherein the second member is shaped so that movement of the actuation mechanism toward the first member causes the first and second bone anchors to move apart, and movement of the actuation mechanism away from the first member causes the first and second bone anchors to move together. 16. The minimally invasive fixation system of claim 12 , wherein the movement mechanism further comprises a third member operably associated with the second member, the second and third members constructed and arranged such that movement of the third member towards the first member causes a distal end of the second member to move towards the first member. 17. The minimally invasive fixation system of claim 16 , wherein the second and third members are pivotally coupled to the first member. 18. The minimally invasive fixation system of claim 2 , wherein the first wall comprises a first edge extending helically around the first axis from the first proximal portion toward the first distal portion. 19. The minimally invasive fixation system of claim 18 , wherein the second wall comprises a second edge extending helically around the second axis in a direction from the second proximal portion toward the second distal portion. 20. The minimally invasive fixation system of claim 19 , wherein the first and second edges are sized and configured to permit the first and second tissue protection portions to intermesh so that an opening is defined between the first and second walls to allow a rod to be inserted through the opening and mounted on the first and second bone anchors. 21. The minimally invasive fixation system of claim 2 , further comprising the second bone anchor connected to the second tissue protection portion. 22. The minimally invasive fixation system of claim 2 , further comprising a rod configured to be mounted onto the first and second bone anchors in an opening defined between the