Posterior spine dynamic stabilizer

What is claimed: 1. A dynamic stabilization system comprising: an elongated spinal rod having a diameter and a length along a first direction; a first and a second bone anchor each attached to the elongated spinal rod, wherein the first bone anchor is slidably attached to the spinal rod such that translational movement is permitted between the first bone anchor and the spinal rod along the first direction and the second bone anchor is attached to the spinal rod such that translational movement is not permitted between the second bone anchor and the spinal rod; and a dynamic member lockingly attached to the spinal rod and not connected to any other spinal rod or bone anchor at a position between the first and second bone anchors, comprising a body having a first and a second leg defining a body channel extending parallel to the spinal rod, a collet and an elastomeric stop member forming an end of the dynamic member located closer to the first bone anchor than the second bone anchor, the collet having a first and a second flexible leg defining therebetween a collet channel within which is located the spinal rod and a bottom opening wherein the first and second flexible legs of the collet can be adapted such that in a first position the bottom opening has a width greater than the diameter of the spinal rod and in a second position the width of the bottom opening is less than the diameter of the spinal rod. 2. The dynamic stabilization system of claim 1 , wherein (i) the dynamic member further comprises a locking cap that extends through the body and into a bore defined by the collet, (ii) the bore of the collet has internal threads, (iii) the locking cap has external threads that engage the internal threads of the collet, and (iv) actuation of the locking cap tightens the collet around the spinal rod. 3. The dynamic stabilization system of claim 2 , wherein the first and second legs of the body each have an inner surface that is tapered at a distal end, and each of the first and second flexible legs of the collet have an outer surface with a complementary taper to the tapered distal end of the inner surface of the first and second legs of the body. 4. The dynamic stabilization system of claim 1 wherein the dynamic member is positioned adjacent the first bone anchor such that the elastomeric stop member can limit the relative translational movement between the first bone anchor and the spinal rod in the first direction. 5. A dynamic stabilization system for stabilizing a first vertebral body with respect to a second vertebral body, comprising: a spinal rod having a diameter and a length along a first direction; a first bone anchor having a distal shaft fixedly secured to the first vertebral body and a second bone anchor having a distal shaft fixedly secured to the second vertebral body, the first bone anchor having an anchor seat attached to the spinal rod and can slide along the spinal rod such that translational movement is permitted between the first bone anchor and the spinal rod along the first direction while the anchor seat of the first bone anchor remains attached to the spinal rod, the second bone anchor having an anchor seat attached to the spinal rod such that translational movement is not permitted between the second bone anchor and the spinal rod; and a dynamic member lockingly attached to the spinal rod at a position between the first and second bone anchors, comprising a body having a first and a second leg defining a body channel extending parallel to the spinal rod, a collet and an elastomeric stop member forming an end of the dynamic member located closer to the first bone anchor than the second bone anchor, the collet having a first and a second flexible leg defining therebetween a collet channel within which is located the spinal rod and a bottom opening wherein the first and second flexible legs of the collet can be adapted such that in a first position the bottom opening has a width greater than the diameter of the spinal rod and in a second position the width of the bottom opening is less than the diameter of the spinal rod; wherein the dynamic member is not a component of any bone anchor assembly that is designed to be secured to any vertebral body and the dynamic member is not a component of a device that is designed to be attached to a second spinal rod; wherein the dynamic member is positioned on the spinal rod such that the elastomeric stop member can limit the translational movement in the first direction between the first bone anchor and the spinal rod. 6. The dynamic stabilization system of claim 5 , wherein the spinal rod comprises a first portion and a second portion that is separate from and not integral with the first portion. 7. The dynamic stabilization system of claim 6 , wherein (i) the first portion of the spinal rod is attached to the body of the dynamic member, and the second portion of the spinal rod is attached to the elastomeric stop member, and (ii) the elastomeric stop member is capable of flexing to thereby enable radial movement of the second portion of the spinal rod. 8. The dynamic stabilization system of claim 7 , wherein the elastomeric stop member is over-molded onto the second portion of the spinal rod. 9. The dynamic stabilization system of claim 5 , wherein the spinal rod has a first and a second end and the first end of the spinal rod includes a flange. 10. The dynamic stabilization system of claim 5 , wherein (i) the dynamic member further comprises a locking cap that extends through the body and into a bore defined by the collet, (ii) the bore of the collet has internal threads, (iii) the locking cap has external threads that engage the internal threads of the collet, and (iv) actuation of the locking cap tightens the collet around the spinal rod. 11. The dynamic stabilization system of claim 10 , wherein (i) each of the first and second legs of the body has an inner surface that is tapered at a distal end, and each of the first and second flexible legs of the collet has an outer surface with a complementary taper to the tapered distal end of the inner surface of the first and second legs of the body, and (ii) actuation of the locking cap causes the first and second legs of the body to collapse the first and second flexible legs of the collet together to clamp against the spinal rod. 12. The dynamic stabilization system of claim 5 , wherein the first and second bone anchors are pedicle screws.