Spinous process fixation system and methods thereof

What is claimed is: 1. A method of implanting a medical device in a patient, the method comprising: inserting a medical device between adjacent spinous processes; rotating a central screw disposed in the medical device between an upper assembly and a lower assembly to cause the medical device to expand from a collapsed form having a first height to an expanded form having a second height; and clamping the medical device onto a first spinous process, wherein the clamping comprises extending upper spike plate assemblies inward to engage the first spinous process, each upper spike plate assembly being disposed in a window that extends from the upper assembly; and clamping the medical device onto a second spinous process, wherein the clamping comprises extending lower spike plate assemblies inward to engage the second spinous process, each lower spike plate assembly being disposed in a window that extends from the lower assembly, wherein the clamping the medical device onto the first spinous process further comprises extending telescoping subassemblies inward, each of the upper spike plate assemblies that engage the first spinous process being disposed in a corresponding one of the telescoping subassemblies, and wherein the upper spike plate assemblies move in the corresponding window until a respective stop is reached, wherein the telescoping subassemblies and the upper spike plate assemblies continue to extend inward along rails in the corresponding window after the stops have been reached. 2. The method of claim 1 , wherein rotation of the central screw draws a front ramped actuator toward a rear ramped actuator, the front ramped actuator and the rear ramped actuator acting on the upper assembly and the lower assembly to cause the medical device to expand. 3. The method of claim 1 , wherein the telescoping subassemblies are configured to traverse a selected distance upon the corresponding rails. 4. The method of claim 3 , wherein each telescoping subassembly is guided on their corresponding rails by a dovetail connection. 5. The method of claim 4 , wherein each upper spike plate assembly is configured to move inward toward the opposing window a selected distance. 6. The method of claim 5 , wherein each upper spike plate assembly travels a portion of the selected distance with the corresponding telescoping subassembly and another portion of the distance without the corresponding telescoping subassembly. 7. The method of claim 2 , wherein the upper spike plate assemblies and the lower spike plate assemblies ratchet inward. 8. The method of claim 7 , wherein a ratchet mechanism engages each spike plate assembly, the ratchet mechanism being secured in a pocket in a corresponding base of the respective upper or lower assembly. 9. A surgical method comprising: inserting an implantable device into an interspinous space, wherein the implantable device is in a collapsed form having a first height; and expanding the implantable device in the interspinous space, wherein the implantable device is expanded to an expanded form having a second height, wherein the implantable device comprises: an upper assembly comprising a ramped base and a pair of opposing windows extending upward from either lateral side of the ramped base, wherein a gripping assembly is disposed in each window; a lower assembly comprising a ramped base and a pair of opposing windows extending down from either lateral side of the ramped base, wherein a gripping assembly is disposed in each window; and a ramped actuator assembly disposed between the upper assembly and the lower assembly and configured to transition the implantable device from a collapsed form having a first height to an expanded form having a second height and wherein the second height is greater than the first height, wherein the implantable device is configured to be clamped onto a first spinous process by extending telescoping subassemblies inward, wherein each gripping assembly in the upper assembly is disposed in a corresponding one of the telescoping subassemblies, and wherein the gripping assemblies of the upper assembly move in the corresponding window until a respective stop is reached, wherein the telescoping subassemblies and the gripping assemblies of the upper assembly continue to extend inward along rails in the corresponding window after the stops have been reached. 10. The method claim 9 , wherein the ramped actuator assembly includes a front ramped actuator in engagement with the upper assembly and the lower assembly; a rear ramped actuator in engagement with the upper assembly and the lower assembly; and a central screw that extends from the rear ramped actuator through the front ramped actuator. 11. The method of claim 10 , wherein the front ramped actuator and the rear ramped actuator are configured to act on the upper assembly and the lower assembly in response to rotation of the central screw. 12. The method of claim 9 , wherein the ramped base of the upper assembly includes a pair of angled wedges in engagement with the ramped actuator assembly, and wherein the ramped base of the lower assembly comprises a pair of angled wedges in engagement with the ramped actuator assembly. 13. The method of claim 12 , wherein the angled wedges of the upper assembly slope in opposite directions, and wherein the angled wedges of the lower assembly slope in opposite directions. 14. The method of claim 12 , wherein the ramped base of the upper assembly comprises a pocket between the pair of angled wedges, and wherein the ramped base of the lower assembly comprises a pocket between the pair of angled wedges. 15. The method of claim 9 , wherein at least one gripping assembly of the upper assembly and/or the lower assembly comprises spike plate assembly disposed in the telescoping assembly. 16. The method of claim 15 , wherein each telescoping subassembly comprises a flange that engages the corresponding window to prevent backing out of the corresponding telescoping subassembly. 17. The method of claim 15 , wherein each telescoping subassembly is configured to traverse a selected distance upon the corresponding rails. 18. The method of claim 17 , wherein each telescoping subassembly is guided on the corresponding rails by a dovetail connection.