Orthopedic stabilization device, kit, and method

What is claimed is: 1. A bone stabilization method comprising: surgically exposing one or more bone segments of a patient, at least one of the bone segments having a near cortex surface and at least one of the bone segments having a far cortex surface; drilling a hole through the one or more bone segments; providing an orthopedic stabilization device; wherein the orthopedic stabilization device comprises: a first button having a base portion and a locking loop, the base portion having a proximal surface, a distal surface, and one or more openings extending therethrough, the locking loop extending from a distal surface of the base portion in an axial direction; a locking member having an aperture sized to receive the locking loop such that the locking member is slidably engageable therewith; a second button having one or more openings extending therethrough; and a suture disposed between the first button and the second button, wherein said locking loop and said locking member are sized such that a portion of said suture is frictionally retainable between said locking member and said locking loop to thereby tie said first button to said second button; advancing the second button and suture through the hole such that the second button exits the hole proximate the far cortex surface; and tensioning the suture such that the first button is positioned proximate the near cortex surface and is tied to the second button, and wherein a portion of the suture is frictionally retained between the locking member and locking loop. 2. The method of claim 1 , wherein at least a portion of the suture extends through the locking loop of the orthopedic stabilization device superior the locking member in the axial direction and at least a portion of the suture extends through the locking loop inferior the locking member in the axial direction. 3. The method of claim 1 , wherein the base portion of the first button of the orthopedic stabilization device includes first and second openings extending therethrough and a first intermediate area extending between the first and second openings of the first button, and wherein the second button has first and second openings extending therethrough and a second intermediate area extending between the first and second openings of the second button. 4. The method of claim 3 , wherein a portion of the suture extends through the first and second openings of the second button of the orthopedic stabilization device to thereby form a first loop around said second intermediate area; wherein a portion of the suture extends through the locking loop, around said locking member, and through the locking loop; wherein a portion of the suture extends through the first and second openings of the first button to thereby form a loop around said first button intermediate area; whereby when tension is applied to the suture, the locking member is biased in the inferior direction to frictionally retain the suture between the locking member and the locking loop. 5. The method of claim 4 , wherein a first end of the suture is disposed proximally of said first button and said suture extends distally through the first opening of the first button of the orthopedic stabilization device; wherein a portion of the suture extends through the first and second openings of the second button to thereby form a first loop around said second intermediate area; wherein a portion of the suture extends through the locking loop, around said locking member, and through the locking loop; wherein a portion of the suture extends through the first and second openings of the first button to thereby form a loop around said first intermediate area; and wherein a second end of the suture extends outwardly through a second opening of the first button. 6. The method of claim 5 , where the suture of the orthopedic stabilization device: makes an entering pass through the first opening of said first button; makes a first pass around said second intermediate portion; makes a first pass through said locking loop and around said locking member; makes a second pass around said second intermediate area; makes a pass around said first intermediate area; makes a third pass around said second intermediate area; makes a second pass through said locking loop and around said locking member; makes a fourth pass around said second intermediate area; and makes an exiting pass through a second opening of said first button. 7. The method of claim 5 , where the suture of the orthopedic stabilization device: makes an entering pass through a first opening of said second button; makes a first pass around said first intermediate portion; makes a first pass around said second intermediate portion; makes a first pass through said locking loop and around said locking member; makes a second pass around said second intermediate area; makes a second pass around said first intermediate area; makes a third pass around said second intermediate area; makes a second pass through said locking loop and around said locking member; makes a fourth pass around said second intermediate area; makes a third pass around said first intermediate area; and makes an exiting pass through a second opening of said second button. 8. The method of claim 1 , wherein the one or more openings of the first button of the orthopedic stabilization device are sized to frictionally retain the suture to inhibit relative movement of the suture and the first button. 9. The method of claim 1 , wherein the first and second buttons of the orthopedic stabilization device each independently comprise one or more of a titanium material, a polyether ether ketone material, and a poly-L-lactic acid material. 10. The method of claim 1 , further comprising: providing a bone plate proximate the near cortex surface, the bone plate including at least one aperture sized to at least partially receive and seat the first button; fastening the bone plate to the near cortex surface via one or more bone screws; and seating the first button in the opening of the bone plate upon the suture being tensioned. 11. The method of claim 1 , further comprising: reducing a fracture of the one or more bone segments before drilling the hole through the one or more bone segments. 12. An orthopedic stabilization device comprising: a first button having a base portion and a locking loop, the base portion having a proximal surface, a distal surface, and first and second openings extending between the proximal surface and the distal surface, the locking loop extending from a distal surface of the base portion in an axial direction; a locking member having an aperture sized to receive the locking loop such that the locking member is slidably engageable therewith; a second button having one or more openings extending therethrough; and a suture disposed between the first button and the second button, wherein said locking loop and said locking member are sized such that a portion of said suture is frictionally retainable between said locking member and said locking loop to thereby tie said first button to said second button, a portion of the suture passing between the proximal surface and the distal surface of the first button through each of said first and second openings. 13. A kit comprising: the orthopedic stabilization device of claim 12 ; a drill bit; a drill guide; and a passing device. 14. The kit of claim 13 , further comprising: a bone plate including at least one aperture sized to at least partially receive and seat the first button. 15. The kit of claim 14 , further c