Shape memory compression staple

What is claimed is: 1. An orthopaedic staple assembly, comprising: an orthopaedic staple, comprising: a bridge portion having a pair of ends; and a staple leg formed from a shape memory material connected to each of said pair of ends, said staple legs having a constrained position where said staple legs are generally parallel to one another and a relaxed position where said staple legs generally converge toward one another, each of said staple legs including a tip and a protruding portion, the protruding portion of each of said staple legs forming a first curved inner surface of the staple leg that encompasses a maximum leg thickness of the staple leg, each of said staple legs increasing in thickness from said tip to said protruding portion, said bridge portion and each of said protruding portions defining a grasping portion therebetween configured to provide resistance to backout of said orthopaedic staple, wherein the grasping portion of each of said staple legs forms a second curved inner surface of the staple leg that extends in a direction opposing the first curved inner surface of the staple leg; and a holder, wherein the staple legs are in said constrained position, and wherein the holder is positioned against the second curved inner surface of each of said staple legs to keep said staple legs in said constrained position. 2. The orthopaedic staple assembly according to claim 1 , wherein each of said staple legs has an outer leg surface that is substantially flat. 3. The orthopaedic staple according to claim 1 , wherein for each of said staple legs the first curved inner surface has a first radius and the second curved inner surface has a second radius, the ratio of the first radius to the second radius for each of said staple legs ranging from 5:4 to 2:1. 4. The orthopaedic staple assembly according to claim 1 , wherein said staple legs are configured to move at least 5 degrees between said constrained position and said relaxed position. 5. The orthopaedic staple assembly according to claim 4 , wherein said staple legs are configured to move at least 10 degrees between said constrained position and said relaxed position. 6. The orthopaedic staple assembly according to claim 1 , wherein said grasping portions are configured to allow locking of said protruding portions underneath a cortical shell after insertion of said orthopaedic staple. 7. The orthopaedic staple assembly according to claim 1 , wherein each of said staple legs increases in thickness in a stepwise manner between said tip and said protruding portion. 8. The orthopaedic staple assembly according to claim 7 , wherein a serration formed in each of said staple legs defines at least one of said increases in thickness. 9. An orthopaedic staple, comprising: a bridge portion having a pair of ends; and a staple leg formed from a shape memory material connected to each of said pair of ends, said staple legs having a constrained position where said staple legs are generally parallel to one another and a relaxed position where said staple legs generally converge toward one another, each of said staple legs including a tip and a protruding portion, the protruding portion of each of said staple legs forming a first curved inner surface of the staple leg that encompasses a maximum leg thickness of the staple leg, each of said staple legs increasing in thickness from said tip to said protruding portion, said bridge portion and each of said protruding portions defining a grasping portion therebetween configured to provide resistance to backout of said orthopaedic staple, wherein the grasping portion of each of said staple legs forms a second curved inner surface of the staple leg that extends in a direction opposing the first curved inner surface of the staple leg wherein for each of said staple legs the first curved inner surface has a first radius and the second curved inner surface has a second radius, the ratio of the first radius to the second radius for each of said staple legs ranging from 5:4 to 2:1. 10. An orthopaedic staple, comprising: a bridge portion having a pair of ends; and a staple leg connected to each of said pair of ends and formed of a shape memory material, said staple legs having a constrained position where said staple legs are generally parallel to one another and a relaxed position where said staple legs converge toward one another, each of said staple legs including a tip and a protruding portion that provides the staple leg with a maximum leg thickness, the protruding portion of each of said staple legs forming a first curved inner surface of the staple leg having a first radius, each of said staple legs increasing in thickness from said tip to said protruding portion, said bridge portion and each of said protruding portions defining a grasping portion therebetween configured to provide resistance to backout of said orthopaedic staple, wherein the grasping portion of each of said staple legs forms a second curved inner surface of the staple leg having a second radius, and wherein the ratio of the first radius to the second radius for each of said staple legs ranges from 5:4 to 2:1. 11. The orthopaedic staple according to claim 10 in combination with a holder and with said staple legs in said constrained position, the holder positioned against the second curved inner surface of each of said staple legs to keep said staple legs in said constrained position. 12. The orthopaedic staple according to claim 10 , wherein each of said staple legs has an outer leg surface that is substantially flat. 13. The orthopaedic staple according to claim 10 , wherein said staple legs are configured to move at least 5 degrees between said constrained position and said relaxed position. 14. The orthopaedic staple according to claim 13 , wherein said staple legs are configured to move at least 10 degrees between said constrained position and said relaxed position. 15. The orthopaedic staple according to claim 10 , wherein said grasping portions are configured to allow locking of said protruding portions underneath a cortical shell after insertion of said orthopaedic staple. 16. The orthopaedic staple according to claim 10 , wherein each of said staple legs increases in thickness in a stepwise manner between said tip and said protruding portion. 17. The orthopaedic staple according to claim 16 , wherein a serration formed in each of said staple legs defines at least one of said increases in thickness. 18. A method of compressing bone tissue, comprising the steps of: providing an orthopaedic staple having a bridge portion with a pair of ends and a staple leg formed from a shape memory material connected to each of said pair of ends, said staple legs having a constrained position where said staple legs are generally parallel to one another and a relaxed position where said staple legs generally converge toward one another, each of said staple legs including a tip and a protruding portion that provides the staple leg with a maximum leg thickness, each of said staple legs increasing in thickness from said tip to said protruding portion, said bridge portion and each of said protruding portions defining a grasping portion therebetween configured to provide resistance to backout of said orthopaedic staple; holding said staple legs in said constrained position which includes positioning a holder in each of said grasping portions so as to force said staple legs into said constrained position; producing a pair of staple leg holes in said bone tissue; placing each of said staple legs in one of said pair of