Antioxidant stabilized crosslinked ultra-high molecular weight polyethylene for medical device applications

What is claimed is: 1. An antioxidant-stabilized crosslinked ultra-high molecular weight polyethylene, comprising: crosslinked polyethylene comprising tocopherol or a salt or ester thereof that has reacted with a free-radical on the polyethylene; and unreacted tocopherol, or a salt or ester thereof; wherein the antioxidant-stabilized crosslinked polyethylene has a pin-on-disc wear rate of about 0.02 mg/Mc to about 0.69 mg/Mc. 2. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the tocopherol ester is tocopherol acetate. 3. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the unreacted tocopherol ester is tocopherol acetate. 4. The antioxidant-stabilized crosslinked polyethylene of claim 3 , wherein R 1 and R 2 are methyl. 5. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the tocopherol that has reacted with the free radical is d,l-α-tocopherol or an acetate ester thereof. 6. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the unreacted tocopherol is d,l-α-tocopherol. 7. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the unreacted tocopherol or salt or ester thereof is contained within the crosslinked polyethylene. 8. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the tocopherol or salt or ester thereof that has reacted with the free radical is homogenously distributed within the crosslinked polyethylene. 9. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the unreacted tocopherol or salt or ester thereof has antioxidant activity. 10. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein about 0.028 wt % to about 0.882 wt % of the crosslinked polyethylene is a combination of the tocopherol or salt or ester thereof that has reacted with the free radical and the unreacted tocopherol or salt or ester thereof. 11. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the crosslinking comprises irradiation. 12. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the crosslinking comprises electron beam irradiation or gamma irradiation. 13. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the antioxidant-stabilized crosslinked polyethylene has a pin-on-disc wear rate of 0.09 mg/Mc to about 0.62 mg/Mc. 14. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the antioxidant-stabilized crosslinked polyethylene has a pin-on-disc wear rate of about 0.02 mg/Mc to about 0.64 mg/Mc. 15. The antioxidant-stabilized crosslinked polyethylene of claim 1 , wherein the antioxidant-stabilized crosslinked polyethylene is molded into at least one of a substrate, a polymeric article, and an antioxidant-stabilized polymeric article. 16. An orthopedic implant comprising the antioxidant-stabilized crosslinked polyethylene of claim 1 .