Discectomy instruments and methods thereof

What is claimed is: 1. A powered discectomy instrument comprising: a cutter tip having an upper endplate and a lower endplate with a plurality of teeth configured to release disc material between adjacent vertebrae; a drive shaft having a proximal end for attachment to a power tool and a distal end coupled to an inner race, the inner race defining a plurality of grooves each containing a ball bearing, the drive shaft is receivable through a housing and an outer sleeve; and an outer race receives the inner race to form a pivotable joint, the outer race coupled to the cutter tip, wherein the outer sleeve is translatable to articulate the cutter tip. 2. The powered discectomy instrument of claim 1 , wherein the inner race is a sphere. 3. The powered discectomy instrument of claim 1 , wherein the plurality of grooves on the inner race are arranged to share two antipodal points which are diametrically opposite to each other. 4. The powered discectomy instrument of claim 1 , wherein the outer race includes an enlarged body with an outwardly extending arm, wherein the arm of the outer race is positioned through and secured to the cutter tip with one or more pins. 5. The powered discectomy instrument of claim 1 , wherein the inner race is secured to the outer race with a race cap, the race cap includes a pair of opposed tongues that mate with corresponding notches in the outer race. 6. The powered discectomy instrument of claim 1 , wherein the plurality of teeth on the upper and lower endplates includes offset teeth having different shapes, sizes, heights, or widths. 7. The powered discectomy instrument of claim 1 , further comprising a rotatable knob secured to the housing, wherein the rotatable knob includes an inner threaded portion and the outer sleeve includes an outer threaded portion configured to threadedly engage with the inner threaded portion, wherein rotation of the knob translates the outer sleeve. 8. The powered discectomy instrument of claim 1 , wherein the outer sleeve includes an extension that terminates at a distal end, wherein the distal end of the extension is configured to interface with the cutter tip, thereby providing pivotal movement of the cutter tip when the outer sleeve is translated. 9. The powered discectomy instrument of claim 8 , further comprising a spring positioned at the distal end of the outer sleeve in order to return the cutter tip to a straight position after articulation and the outer sleeve is retracted. 10. The powered discectomy instrument of claim 1 , wherein the housing includes an enlarged cylindrical body with an elongate tube extending therefrom, a shank extends transversely from the cylindrical body. 11. A powered discectomy instrument comprising: a cutter tip having a front end, a rear end, an upper endplate, and a lower endplate, the upper and lower endplates include a plurality of teeth configured to release disc material between adjacent vertebrae, wherein the front end includes a first spring cut and the rear end includes a second spring cut configured to provide passive expandability of the upper and lower endplates; a drive shaft having an inner race defining a plurality of grooves each containing a ball bearing, the drive shaft is receivable through a housing and an outer sleeve; and an outer race receives the inner race to form a constant velocity joint, the outer race having an arm coupled to the cutter tip, wherein the outer sleeve is translatable to articulate the cutter tip. 12. The powered discectomy instrument of claim 11 , wherein the first and second spring cuts each include inwardly facing angled cuts that are opposed to one another and meet at a central arcuate recess. 13. The powered discectomy instrument of claim 12 , wherein the first and second spring cuts are each bifurcated by a central slit, thereby providing clearance for the cutter tip in a collapsed position. 14. The powered discectomy instrument of claim 12 , wherein a first arcuate recess at the front end is configured to receive a distal pin and a second arcuate recess at the rear end is configured to receive a proximal pin to secure the arm of the outer race to the cutter tip. 15. The powered discectomy instrument of claim 11 , wherein the rear end includes an angled tail, thereby allowing the user to pull the cutter tip back. 16. The powered discectomy instrument of claim 11 , wherein the instrument is alignable in a straight configuration along a longitudinal axis for insertion and retraction of the cutter tip through an access port, and the instrument is in an off-axis configuration when the cutter tip is pivoted to an angle up to 45° off axis relative to the longitudinal axis. 17. The powered discectomy instrument of claim 11 , wherein the constant velocity joint allows rotation and drive to be transferred from the drive shaft of the inner race to the arm of the outer race attached to the cutting tip.