Bone fixation assembly

The invention claimed is: 1. A bone anchor assembly comprising: a body having an upper opening located at an upper end of the body and a lower opening located at a lower end of the body, the lower opening sized and configured to receive a head of a bone anchor, a bore extending between the upper and lower openings of the body, wherein the bore defines a lower chamber surface within the body, the body further defining a rod receiving channel extending through a side wall of the body; a bushing received within the bore of the body, the bushing including an upper opening located at an upper end of the bushing and a lower opening located at a lower end of the bushing, a bore extending between the upper and lower openings of the bushing, an interior cavity located within the bore of the bushing for receiving at least a portion of a head of a bone anchor, a slot extending from the lower end, the slot permitting a portion of the bushing to expand and collapse about a head of a bone anchor, wherein the expanding and collapsing portion is configured for positioning in direct contact with the lower chamber surface and the head of the anchor; a saddle received within a portion of the bore of the body between the bushing and the upper opening of the body, the saddle including a locking mechanism for engaging a corresponding locking mechanism of the bore of the body. 2. The bone anchor assembly of claim 1 , wherein the bushing is movable between a locked and unlocked position, wherein in the unlocked position a bone anchor can be connected or unconnected from the bushing via the lower opening of the bushing and the portion of the bushing is expandable about the head of the bone anchor, wherein in the locked position the portion of the bushing is collapsed about the head of a bone anchor received within the inner cavity such that a position of the bone anchor is locked with respect to the bushing. 3. The bone anchor assembly of claim 2 , wherein movement of an instrument, received within the bone anchor assembly, moves the bushing between the unlocked and locked position and moves the saddle between an unlocked and a locked position. 4. The bone anchor assembly of claim 2 , wherein the bone anchor is frictionally retained within the inner cavity when the bushing is in the unlocked position. 5. The bone anchor assembly of claim 1 , wherein downward movement of the saddle within the bore of the body causes a lower surface of the saddle to engage an upper surface of the bushing to move the bushing into the locked position, and in the locked position a lower surface of the bushing contacts the lower chamber surface of the body securing the bushing within the body. 6. The bone anchor assembly of claim 1 , wherein the locking mechanism of the saddle and the locking mechanism of the body include corresponding ratchet teeth, wherein the corresponding ratchet teeth limit movement of the saddle within the body in a direction along a longitudinal axis of the saddle. 7. The bone anchor assembly of claim 1 , wherein the bore extending within the body includes a torus-like convex surface proximate the lower opening of the body. 8. The bone anchor assembly of claim 1 , wherein the bore of the body proximate the upper opening of the body defines a first diameter and the bore of the body proximate the lower opening of the body defines a second diameter smaller than the first diameter. 9. The bone anchor assembly of claim 8 , wherein the bushing is sized and configured to be inserted into the body through the upper opening, wherein the bushing is sized and configured to be inserted into the body through the lower opening when in a rotated state such that a longitudinal axis of the bushing is perpendicular to a longitudinal axis of the body, and wherein the bushing is sized and configured such that it is prevented from exiting through the lower opening of the body when in a non-rotated state when the longitudinal axis of the bushing is parallel with the longitudinal axis of the body. 10. The bone anchor assembly of claim 1 , wherein the bushing provides for polyaxial movement of a bone anchor operatively coupled with the bushing in both the locked and unlocked position, wherein the bushing provides for at least 40-degrees of angulation of a bone anchor in any direction with respect to a longitudinal axis of the bone anchor assembly, when the bone anchor is operatively coupled to the bushing in both the locked and unlocked position. 11. The bone anchor assembly of claim 1 , further including: a bone anchor including: a head sized and configured to be movably received within the interior cavity of the bushing; and an externally threaded shaft extending from the head for engaging a patient's bone. 12. The bone anchor assembly of claim 11 , wherein the bone anchor further includes a neck located between the head and the externally threaded shaft, the neck having a diameter less than a diameter of the externally threaded shaft, wherein polyaxial movement of the bone anchor is limited when the neck comes into contact with the bushing proximate the lower opening. 13. The bone anchor assembly of claim 1 , wherein the expanding and collapsing portion is urged radially inward toward the bone anchor by the lower chamber surface of the body. 14. The bone anchor assembly of claim 1 , further comprising a locking cap assembly received within the bore of the body to retain a spinal rod within the rod receiving channel.