Adjustable compression staple and method for stapling with adjustable compression

The invention claimed is: 1. A compression-self-adjusting staple, comprising: a substantially U-shaped staple that imparts a compressive force on material to which the staple is applied, and having: a bridge; legs; and: an internally disposed compression device having a bias portion with: a compression surface movably disposed between the legs; and a compression resistor: connected to the bridge and to the compression surface; and being formed to resist movement of the compression surface towards the bridge with a pre-defined force that opposes the compressive force, wherein the compression resistor absorbs compressive forces that are greater than the pre-defined opposing force, thereby regulating an amount of compressive force being imparted on the material. 2. The staple according to claim 1 , wherein: the bridge is substantially rod-shaped with ends; and each of the legs has a base end integral with a respective one of the ends. 3. The staple according to claim 1 , wherein: the bridge and the legs define a bridge-leg plane; and the legs extend from the bridge at an angle of between 80 and 100 degrees in the bridge-leg plane. 4. The staple according to claim 1 , wherein: the compression surface defines two orifices; and each of the legs extends through one of the two orifices. 5. The staple according to claim 1 , wherein: the compression resistor defines at least one orifice pair, the compression surface defines two orifices; and each of the legs extends through one of the two orifices and one of the at least one orifice pair. 6. The staple according to claim 1 , wherein: the compression resistor defines a plurality of orifice pairs; the compression surface defines two orifices; and each of the legs extends through one of the two orifices and one of each of the orifice pairs. 7. The staple according to claim 1 , wherein: the bridge and the legs define a compression axis; and the compression surface is movably disposed between the legs along the compression axis. 8. The staple according to claim 1 , wherein the compression device is connected to the bridge. 9. The staple according to claim 8 , wherein the compression resistor connects the bridge to the compression surface. 10. The staple according to claim 8 , wherein the bridge, the legs, the compression resistor, and the compression surface are integral. 11. The staple according to claim 1 , wherein the compression resistor is at least partly disposed between the legs. 12. The staple according to claim 1 , wherein the compression resistor is disposed between the bridge and the compression surface. 13. The staple according to claim 1 , wherein the pre-defined opposing force comprises a substantially constant force. 14. The staple according to claim 1 , wherein the pre-defined opposing force comprises a linearly increasing force. 15. The staple according to claim 1 , wherein the compression resistor has an anti-compressive spring constant such that the pre-defined opposing force is a substantially constant anti-compressive force imparted over a pre-defined compression range. 16. The staple according to claim 1 , wherein the staple and the compression device are of a biocompatible material. 17. The staple according to claim 1 , wherein: each of the legs comprises a deformable distal end defining a stapling point shaped to pierce material to be stapled; the compression surface and the legs define a central compression region in which is to be disposed a material to be compressed between the compression surface and the stapling points when the distal ends of the legs are deformed; and when the distal ends are deformed in a staple closing direction into the central compression region, the bias portion resists movement of the compression surface in the staple closing direction with the pre-defined opposing force, wherein the pre-defined opposing force is a substantially constant force. 18. The staple according to claim 1 , wherein: each of the legs comprises a deformable distal end defining a stapling point shaped to pierce material to be stapled; and the compression surface and the bias portion are shaped to impart the pre-defined opposing force upon material disposed between the compression surface and the stapling points when the stapling points are deformed, wherein the pre-defined opposing force is a substantially constant bias force. 19. The staple according to claim 1 , wherein: each of the legs comprises a deformable distal end defining a stapling point shaped to pierce material to be stapled; when the stapling points are deformed toward one another, material disposed between the compression surface and the stapling points is compressed between the stapling points and the compression surface; and the compression resistor maintains a substantially constant compressive force on the material within a pre-defined range independent of a degree of compression between the stapling points and the compression surface.