Growing rod for treating spinal deformities and method for using same

What is claimed is: 1. An implantable growing rod assembly comprising: a housing; an expansion tube having an internal threading and rotatably mounted inside of the housing; a fixed rod extending along a longitudinal axis away from the housing; an expansion rod having an externally threaded proximal portion in mesh with the internal threading of the expansion tube such that the expansion rod is extendible from the expansion tube along the longitudinal axis; and a bevel gear assembly disposed in the housing and adapted to translate the expansion rod along the longitudinal axis, wherein the bevel gear assembly includes a bevel pinion gear and a bevel output gear perpendicular to the bevel pinion gear, the bevel output gear being attached to a proximal portion of and rotationally coupled with the expansion tube, wherein the bevel pinion gear includes teeth that mesh with teeth of the bevel output gear such that rotation of the bevel pinion gear causes rotation of the bevel output gear and the expansion tube, which in turn causes extension of the expansion rod along the longitudinal axis. 2. The implantable growing rod assembly according to claim 1 , wherein the expansion rod comprises a distal end adapted to extend outwardly from the housing. 3. The implantable growing rod assembly according to claim 1 , wherein the bevel pinion gear includes teeth at one end. 4. The implantable growing rod assembly according to claim 1 , wherein the bevel gear assembly is located in a housing cap between the housing and the fixed rod. 5. The implantable growing rod assembly according to claim 4 , wherein the bevel pinion gear is disposed in the housing cap between a first pinion bushing and a second pinion bushing. 6. The implantable growing rod assembly of claim 5 , wherein the internally threaded expansion tube is formed of PEEK. 7. The implantable growing rod assembly of claim 6 , further comprising: a wave washer disposed between the housing and one of the first pinion bushing or the second pinion bushing and configured to exert a locking force on the bevel pinion gear to prevent undesired back drive of the bevel pinion gear. 8. The implantable growing rod assembly of claim 7 , wherein the bevel pinion gear includes a first plurality of teeth at a first end and a second plurality of teeth at a second end, wherein the first plurality of teeth engages the teeth of the bevel output gear to extend the expansion rod, and wherein the locking force exerted by the wave washer is configured to push the second plurality of teeth into engagement with the teeth of the bevel output gear to lock movement of the bevel output gear and the internally threaded expansion tube. 9. The implantable growing rod assembly according to claim 1 , further comprising: a keyed bushing located in the housing and wherein the expansion rod comprises a mating key located in the keyed bushing such that, as the expansion rod extends from the housing, the keyed bushing prevents the expansion rod from rotating. 10. The implantable growing rod assembly according to claim 9 , wherein the keyed bushing includes a keyway in the form of a flat surface formed through an entire length of the bushing. 11. The implantable growing rod assembly according to claim 1 , wherein the bevel pinion gear includes a plurality of rotatable teeth at a first end and a plurality of locking teeth at a second end, wherein the first plurality of teeth engages the teeth of the bevel output gear to extend the expansion rod, and wherein the locking teeth in its locking state engages with the teeth of the bevel output gear to lock movement of the bevel output gear and the internally threaded expansion tube. 12. An implantable growing rod assembly comprising: a housing; an internally threaded expansion tube rotatably mounted inside of the housing, wherein the internally threaded expansion tube is formed of PEEK; a fixed rod extending along a longitudinal axis away from the housing; an expansion rod having an externally threaded proximal portion in mesh with the internal threading of the expansion tube such that the expansion rod is extendible from the expansion tube along the longitudinal axis; and a bevel gear assembly disposed in the housing and adapted to translate the expansion rod along the longitudinal axis, wherein the bevel gear assembly comprises: a bevel pinion gear; a first pinion bushing disposed between a first side of the bevel pinion gear and the housing; a second pinion bushing disposed between a second side of the bevel pinion gear and the housing; a wave washer disposed between the housing and one of the first or second pinion bushings and configured to exert a locking force on the bevel pinion gear to prevent undesired back drive of the bevel pinion gear; and a bevel output gear perpendicular to the bevel pinion gear, the bevel output gear being attached to a proximal portion of and rotationally coupled with the expansion tube, wherein the bevel pinion gear includes teeth that mesh with teeth of the bevel output gear such that rotation of the bevel pinion gear causes rotation of the bevel output gear, which in turn causes extension of the expansion rod along the longitudinal axis. 13. The implantable growing rod assembly according to claim 12 , wherein the expansion rod comprises a distal end adapted to extend outwardly from the housing. 14. The implantable growing rod assembly according to claim 12 , wherein the bevel gear assembly is located in a housing cap between the housing and the fixed rod. 15. The implantable growing rod assembly of claim 12 , wherein the bevel pinion gear includes a first plurality of teeth at a first end and a second plurality of teeth at a second end, wherein the first plurality of teeth engages the teeth of the bevel output gear to extend the expansion rod, and wherein the locking force exerted by the wave washer is configured to push the second plurality of teeth into engagement with the teeth of the bevel output gear to lock movement of the bevel output gear and the internally threaded expansion tube. 16. The implantable growing rod assembly according to claim 12 , further comprising: a keyed bushing located in the housing and wherein the expansion rod comprises a mating key located in the keyed bushing such that, as the expansion rod extends from the housing, the keyed bushing prevents the expansion rod from rotating. 17. The implantable growing rod assembly according to claim 16 , wherein the keyed bushing includes a keyway in the form of a flat surface formed through an entire length of the bushing. 18. An implantable growing rod assembly comprising: a housing; an internally threaded expansion tube mounted inside of the housing; a fixed rod extending along a longitudinal axis away from the housing; an expansion rod extendible from the housing along the longitudinal axis; and a bevel gear assembly disposed in the housing and adapted to translate the expansion rod along the longitudinal axis, wherein the bevel gear assembly includes a bevel pinion gear and a bevel output gear perpendicular to the bevel pinion gear, wherein the bevel pinion gear includes teeth that mesh with teeth of the bevel output gear such that rotation of the bevel pinion gear causes rotation of the bevel output gear, and wherein bevel output gear is fixed to the internally threaded expansion tube such that the internally threaded expansion tube rotates with the bevel output gear; wherein the bevel pinion gear includes a first plurality of teeth at a first end and a second plurality of teeth at a