Methods and apparatus for guided spinal growth

1 . An implantable spinal anchor for supporting a rod, comprising: a head having a cavity adapted and configured to support an implantable rod; a device adapted and configured for supporting said head from a vertebra; and a bushing supported by the head and within the cavity and having two open ends and defining a pathway for receiving the rod that extends from one open end to the other open end, said bushing being at least one of formed in an organic material or coated with an organic material, the bushing being adapted and configured to limit the motion of the rod perpendicularly to the axis of the rod and permit sliding motion of the rod along the axis; wherein said bushing is selected from the group including a one-piece separable bushing, a multi-piece separable bushing assembly, a bushing integrally molded with said head, a bushing integrally molded into a separable container received within the cavity, and a bushing having a non-cylindrical pathway. 2 . The spinal anchor of claim 1 wherein said device includes a bone screw having a device junction, a tip, and a threaded portion therebetween, said device junction having a rounded external shape, said head including a junction pocket having a rounded internal shape adapted and configured to receive therein the device junction and permit rotation of said device relative to said head in at least one direction. 3 - 7 . (canceled) 8 . The spinal anchor of claim 1 wherein said device includes a plurality of projections extending from a surface of said head, the projections being integral with said head. 9 . The spinal anchor of claim 1 wherein said bushing includes a rigid support arm surrounding the one of the formed organic material or the organic coating, said support arm being received within the cavity. 10 - 15 . (canceled) 16 . The spinal anchor of claim 1 wherein said head is integral with said device, said head includes at least one through slot, and which further comprises a flexible connector receivable in the slot. 17 - 19 . (canceled) 20 . The spinal anchor of claim 1 which further comprises a retaining ring that is receivable within an opened end of said head which is adapted and configured to be retained in said head, and a second bushing receivable within a recess of the inner diameter of said retaining ring, said second bushing rotatably capturing within it the junction of said device. 21 . The spinal anchor of claim 1 wherein said bushing is a separate component and has a bushing external shape and said cavity has a cavity internal shape that is adapted and configured to slidingly receive the bushing external shape. 22 . The spinal anchor of claim 1 wherein said bushing is accepted into the cavity in a direction parallel to the axis. 23 . The spinal anchor of claim 1 wherein said bushing is accepted into the cavity in a direction perpendicular to the axis. 24 - 40 . (canceled) 41 . The spinal anchor of claim 1 wherein said head includes a pair of opposing external interface surfaces, and which further comprises a bushing container including a central passageway adapted and configured to receive therethrough the pair of external interface surfaces, a corresponding portion of said bushing container on each of the opposing sides providing an extension of the cavity, and which further comprises a second bushing, and wherein each of the extensions supports a corresponding one of said bushings. 42 . The spinal anchor of claim 1 wherein said bushing is a first bushing and the pathway is an open channel expending between the two open ends, the open channel being adapted and configured to receive therein the rod, and which further comprises a second bushing being at least one of formed in an organic material or coated with an organic material, said second bushing being adapted and configured to be received within the cavity of said head, said second bushing being adapted and configured to limit the motion of the rod perpendicularly to the axis of the rod and permit sliding motion of the rod along the axis. 43 . The spinal anchor of claim 1 which further comprises a bushing container to support said bushing within the cavity and including a first retention feature having a first shape, said head includes a second retention feature have a second shape complementary to the first shape, and the first retention feature and the second retention feature cooperate to retain said bushing container within the cavity. 44 . The spinal anchor of claim 1 which further comprises a bushing container to support said bushing within the cavity and including a projection, said head includes a pair of arms defining the cavity therebetween, at least one of said arms including a recess, said arms being adapted and configured to elastically spread apart and receive therebetween said bushing container with the projection being received within the recess. 45 . The spinal anchor of claim 1 which further comprises a bushing container to support said bushing within the cavity, at least one of the external sides of said bushing container being tapered, said head includes a pair of arms defining the cavity therebetween with at least one of the internal sides of the arms being tapered, the external tapered side and the internal tapered side being in contact when said busing container is placed between said arms. 46 . The spinal anchor of claim 1 wherein said head includes a first pair of opposing arms on opposite sides of the cavity, and which further comprises a bushing container having a second pair of opposing support arms receivable within the cavity, said second pair of arms forming therebetween a pocket that receives said bushing. 47 - 51 . (canceled) 52 . The spinal anchor of claim 1 wherein said head includes a cantilever spring portion that is elastically and radially extendable, and which further comprises a bushing container for supporting therein said bushing, said bushing container including at least one head retention feature, said bushing container being adapted and configured to be received within the cavity, wherein during insertion of said bushing container within said cavity the passage of the retention feature past the cantilever spring portion results in a radially outward and elastic extension of the end of the cantilever spring portion. 53 . The spinal anchor of claim 1 wherein said head includes a pair of threaded extending arms that contain between them the cavity, and which further comprises a bushing container that supports said bushing, said bushing container being receivable between said arms, and which further comprises a set screw that threadably couples to said arms, wherein tightening of said set screw compresses said bushing container against a surface of said head. 54 . The spinal anchor of claim 1 wherein the bottom of the cavity includes slot that is parallel to the axis of the rod, the slot having a cross-sectional shape, wherein said bushing includes a surface having a shape complementary to the cross-sectional shape of the slot, wherein said bushing is insertable within the cavity in a direction parallel to the axis of the rod, and after insertion the slot cross sectional shape and the bushing surface coact to prevent rotation of said bushing within the cavity. 55 . The spinal anchor of claim 1 wherein said cavity is non-circular, and wherein said bushing is integrally molded into the cavity. 56 . The spinal anchor of c