Orientated polymeric devices

What is claimed is: 1. An internal fixation device comprising: an interface portion; and a sleeve of shape memory polymer material coupled to the interface portion and having a stored radial stress located on an outer surface region of the sleeve that is higher than a stored radial stress on an inner surface region of the sleeve. 2. The internal fixation device of claim 1 wherein the shape memory polymer material has a tailored stress pattern that allows the shape memory polymer material to expand along the outer surface region of the sleeve and contract along the inner surface region of the sleeve simultaneously when the shape memory polymer material is provided with energy. 3. The internal fixation device of claim 1 wherein the outer surface region of the sleeve expands radially outward and the inner surface region of the sleeve contracts radially inward or remains unchanged when the shape memory polymer material is provided with energy. 4. The internal fixation device of claim 3 wherein the inner surface region of the sleeve contracts radially inward when the shape memory polymer material is provided with energy. 5. The internal fixation device of claim 3 wherein the shape memory polymer material contracts in an axial direction along an axial length of the sleeve when the shape memory polymer material is provided with energy. 6. The internal fixation device of claim 1 wherein the sleeve has an inner surface extending about the interface portion and an outer surface opposite the inner surface, the sleeve having a first state that is transitioned to a second state when the shape memory polymer material is provided with energy; and wherein the outer surface of the sleeve has a first outer dimension in the first state and a second outer dimension in the second state that is greater than the first outer dimension in the first state; and wherein the inner surface of the sleeve has a first inner dimension in the first state and a second inner dimension in the second state that is less than or equal to the first inner dimension in the first state. 7. The internal fixation device of claim 6 wherein the second inner dimension in the second state is less than the first inner dimension in the first state. 8. The internal fixation device of claim 6 wherein the shape memory polymer material expands in a radial direction along the outer surface and contracts in a radial direction along the inner surface when the shape memory polymer material is provided with energy. 9. The internal fixation device of claim 8 wherein the shape memory polymer material contracts in an axial direction along an axial length of the sleeve when the shape memory polymer material is provided with energy. 10. The internal fixation device of claim 1 wherein the sleeve comprises a cannulated cylinder. 11. The internal fixation device of claim 1 wherein the interface portion includes an annular recess extending about the fixation device; and wherein the sleeve of shape memory polymer material is at least partially positioned in the annular recess. 12. An internal fixation device comprising: an interface portion; and a sleeve of shape memory polymer material coupled to the interface portion and having an inner surface extending about the interface portion and an opposite outer surface, the sleeve having a first state that is transitioned to a second state when the shape memory polymer material is provided with energy; wherein the outer surface of the sleeve has a first outer dimension in the first state and a second outer dimension in the second state that is greater than the first outer dimension in the first state wherein the inner surface of the sleeve has a first inner dimension in the first state and a second inner dimension in the second state that is less than the first inner dimension in the first state; and wherein the shape memory polymer material expands in a radial direction along the outer surface and contracts in a radial direction along the inner surface when the shape memory polymer material is provided with energy. 13. The internal fixation device comprising: an interface portion; and a sleeve of shape memory polymer material coupled to the interface portion and having an inner surface extending about the interface portion and an opposite outer surface, the sleeve having a first state that is transitioned to a second state when the shape memory polymer material is provided with energy; wherein the outer surface of the sleeve has a first outer dimension in the first state and a second outer dimension in the second state that is greater than the first outer dimension in the first state; wherein the inner surface of the sleeve has a first inner dimension in the first state and a second inner dimension in the second state that is less than or equal to the first inner dimension in the first state; and wherein the sleeve has a stored radial stress located on the outer surface of the sleeve that is higher than a stored radial stress on the inner surface of the sleeve. 14. The internal fixation device of claim 12 wherein the shape memory polymer material contracts in an axial direction along an axial length of the sleeve when the shape memory polymer material is provided with energy. 15. The internal fixation device of claim 12 wherein the shape memory polymer material has a tailored stress pattern that allows the shape memory polymer material to expand in a radial direction along the outer surface of the sleeve and contract in a radial direction along the inner surface of the sleeve when the shape memory polymer material is provided with energy. 16. The internal fixation device of claim 12 wherein the sleeve comprises a cannulated cylinder. 17. The internal fixation device of claim 12 wherein the interface portion comprises an annular recess extending about the fixation device; and wherein the sleeve of shape memory polymer material is at least partially positioned in the annular recess.