Interspinous process device and method

What is claimed is: 1. An interspinous process device configured for placement between adjacent spinous processes on a subject's spine comprising: a housing configured for mounting to a first spinous process, the housing comprising a lead screw fixedly secured at one end thereof and a first mounting surface, wherein the first mounting surface comprises a channel in a surface of the first mounting surface; a magnetic assembly at least partially disposed within the housing and configured for mounting to a second spinous process, the magnetic assembly comprising a hollow magnet having a longitudinally extending bore defining an inner surface, the bore extending in a direction substantially between the first spinous process and the second spinous process, the hollow magnet configured for rotation within the magnetic assembly, the hollow magnet comprising an internally threaded insert affixed to the inner surface of the bore, the internally threaded insert configured to coaxially engage with the lead screw; a second mounting surface coupled to the magnetic assembly, wherein the second mounting surface is dimensioned to fit into and slide within the channel; and wherein an externally applied magnetic field rotates the hollow magnet, wherein rotation of the hollow magnet in a first direction effectuates telescopic movement of the magnetic assembly out of the housing. 2. The interspinous process device of claim 1 , wherein rotation of the hollow magnet in a second, opposite direction causes telescopic movement of the magnetic assembly into the housing. 3. The interspinous process device of claim 1 , further comprising a seal disposed between the magnetic assembly and an internal surface of the housing. 4. The interspinous process device of claim 1 , the magnetic assembly comprising a retaining cup configured to rotatably support the hollow magnet within the magnetic assembly. 5. The interspinous process device of claim 4 , further comprising a thrust bearing, wherein an end of the retaining cup is rotationally supported by the thrust bearing. 6. The interspinous process device of claim 1 , wherein one or both of the housing and magnetic assembly further comprise a screw configured to secure to respective spinous processes. 7. The interspinous process device of claim 1 , wherein one or both of the housing and magnetic assembly further comprise a hook configured to secure to respective spinous processes. 8. The interspinous process device of claim 1 , further comprising at least one hook configured to pivot between a low profile configuration and a deployed configuration. 9. The interspinous process device of claim 1 , wherein one or both of the housing and magnetic assembly further comprise a clip configured to secure to respective spinous processes. 10. The interspinous process device of claim 1 , further comprising an external adjustment device configured to apply an external, noninvasively applied magnetic field to the hollow magnet. 11. The interspinous process device of claim 10 , the external adjustment device comprising a feedback sensor configured to determine positional data of the magnetic assembly. 12. The interspinous process device of claim 11 , wherein the feedback sensor detects one or more of an acoustic signal, a radiation signal, or a magnetic signal. 13. The interspinous process device of claim 1 , further comprising at least one force feedback sensor. 14. A method of adjusting the distance between adjacent spinous processes in a subject comprising: affixing an interspinous process device to first and second spinous processes, the interspinous process device comprising a housing configured for mounting to the first spinous process, the housing comprising a lead screw fixedly secured at one end thereof and a first mounting surface, wherein the first mounting surface comprises a channel in a surface of the first mounting surface, the interspinous device further comprising a magnetic assembly at least partially disposed within the housing and configured for mounting to the second spinous process, the magnetic assembly comprising a hollow magnet having a longitudinally extending bore defining an inner surface and a second mounting surface coupled to the magnetic assembly, the bore extending in a direction substantially between the first spinous process and the second spinous process, the hollow magnet configured for rotation within the magnetic assembly, the hollow magnet comprising an internally threaded insert affixed to the inner surface of the bore, the internally threaded insert configured to coaxially engage with the lead screw, and the second mounting surface dimensioned to fit into and slide within the channel; and applying a non-invasive external magnetic field to rotate the hollow magnet, wherein rotation of the hollow magnet in a first direction increases the distance between adjacent spinous processes. 15. The method of claim 14 , wherein rotation of the hollow magnet in a second direction decreases the distance between adjacent spinous processes. 16. The method of claim 14 , wherein the external magnetic field is applied from an external adjustment device comprising one or more permanent magnets. 17. The method of claim 16 , wherein the external adjustment device is placed against the skin or clothing of the subject. 18. The method of claim 16 , wherein the external magnetic field is applied to the subject periodically. 19. An interspinous process device configured for placement between adjacent spinous processes on a subject's spine comprising: a housing configured for mounting to a first spinous process, the housing comprising a lead screw fixedly secured to an inner surface of the housing at one end thereof; a magnetic assembly at least partially disposed within the housing and configured for mounting to a second spinous process, the magnetic assembly comprising a hollow magnet having a longitudinally extending bore defining an inner surface, the bore extending in a direction substantially between the first spinous process and the second spinous process, the hollow magnet configured for rotation within the magnetic assembly, the hollow magnet comprising an internally threaded insert affixed to the inner surface of the bore, the internally threaded insert configured to coaxially engage with the lead screw; and wherein an externally applied magnetic field rotates the hollow magnet, wherein rotation of the hollow magnet in a first direction effectuates telescopic movement of the magnetic assembly out of the housing. 20. The interspinous process device of claim 19 , wherein rotation of the hollow magnet in a second, opposite direction causes telescopic movement of the magnetic assembly into the housing. 21. The interspinous process device of claim 19 , further comprising a seal disposed between the magnetic assembly and an internal surface of the housing. 22. The interspinous process device of claim 19 , the magnetic assembly comprising a retaining cup configured to rotatably support the hollow magnet within the magnetic assembly. 23. The interspinous process device of claim 22 , further comprising a thrust bearing, wherein an end of the retaining cup is rotationally supported by the thrust bearing. 24. The interspinous process device of claim 19 , wherein one or both of the housing and magnetic assembly further comprise a screw configured to secure to respective spinous processes. 25. The interspinous pr