Preoperatively planning an arthroplasty procedure and generating a corresponding patient specific arthroplasty resection guide

The invention claimed is: 1. A method of performing an arthroplasty procedure on a femur of a patient, the method comprising: a) generating an operation plan of the arthroplasty procedure, the generating of the operation plan including: i) displaying on a three dimensional computer model of the femur of the patient a first point at a most distal location on a condylar surface of the computer model of the femur of the patient and a second point at a location on the condylar surface of the computer model of the femur of the patient that is proximal the first point; ii) using the first point and second point to position a three dimensional computer model of an implant relative to the three dimensional computer model of the femur of the patient, a position of the three dimensional computer model of the implant relative to the three dimensional computer model of the femur of the patient being reflective of the implant being implanted on the femur; and iii) computer defining a resection of the femur in the computer model of the femur of the patient based on the position of the three dimensional computer model of the implant relative to the three dimensional computer model of the femur of the patient; b) computer referencing the computer defined resection to a registration surface of the three dimensional computer model of the femur of the patient such that a position of the computer defined resection relative to the registration surface is reflective of a position of an actual resection to be made in the femur of the patient during the arthroplasty procedure and according to the operation plan. 2. The method of claim 1 , wherein the computer referencing includes matching movements relative to an origin in a computer coordinate system of a bone-only version of the three dimensional computer model of the femur and a bone and cartilage version of the three dimensional computer model of the femur. 3. The method of claim 2 , wherein the computer defining the resection of the femur occurs in relation to the bone-only version of the three dimensional computer model of the femur, and the registration surface of the three dimensional computer model is with respect to the bone and cartilage version of the three dimensional computer model. 4. The method of claim 1 , further comprising displaying on the three dimensional computer model of the implant a third point at a most distal location on a condylar surface of the computer model of the implant and a fourth point at a location on the condylar surface of the computer model of the implant proximal the third point, wherein using the first and second points to position the three dimensional computer model of the implant relative to the three dimensional computer model of the femur of the patient includes respectively positionally matching the first point with the third point and the second point with the fourth point. 5. The method of claim 4 , wherein the positionally matching occurs in two dimensions. 6. The method of claim 5 , wherein the positionally matching occurring in two dimensions includes projecting the first, second, third and fourth points to a sagittal plane of the three dimensional computer model of the femur of the patient and the three dimensional computer model of the implant. 7. The method of claim 4 , wherein the positionally matching employs iterative closest point matching. 8. The method of claim 4 , wherein the second point is at a most posterior location on the condylar surface of the computer model of the femur of the patient, and the fourth point is at a most posterior location on the condylar surface of the computer model of the implant. 9. The method of claim 1 , wherein the operation plan takes place preoperatively. 10. The method of claim 1 , further comprising: c) contacting the femur at a location corresponding to the registration surface of the three dimensional computer model of the femur of the patient. 11. The method of claim 10 , wherein step c) facilitates guidance of a cutting tool to resect the femur according to the operation plan. 12. The method of claim 10 , wherein step c) occurs subsequent to steps a) and b). 13. The method of claim 11 , wherein the contacting the femur is via a mating surface defined in an arthroplasty jig according to the registration surface of the three dimensional computer model of the femur, and the guidance of the cutting tool to resect the femur according to the operation plan is via a resection slot of the arthroplasty jig, the resection slot having been defined in the arthroplasty jig according to the computer defined resection. 14. The method of claim 11 , further comprising guiding the cutting tool to resect the femur according to the operation plan subsequent the femur being contacted at the location corresponding to the registration surface of the three dimensional computer model of the femur of the patient, the contact registering the computer defined resection with the femur. 15. The method of claim 14 , wherein the contacting the femur is via a mating surface defined in an arthroplasty jig according to the registration surface of the three dimensional computer model of the femur, and the guiding of the cutting tool to resect the femur according to the operation plan is via a resection slot of the arthroplasty jig, the resection slot having been defined in the arthroplasty jig according to the computer defined resection. 16. The method of claim 14 , wherein the second point is a most posterior location on the condylar surface of the computer model of the femur of the patient. 17. A method of performing an arthroplasty procedure on a femur of a patient, the method comprising: a) generating an operative plan of the arthroplasty procedure, the generating of the operative plan including: i) displaying on a three dimensional computer model of the femur of the patient a first point at a most distal location on a condylar surface of the computer model of the femur of the patient and a second point at a location on the condylar surface of the computer model of the femur of the patient that is proximal the first point; ii) using the first point and second point to position a three dimensional computer model of an implant relative to the three dimensional computer model of the femur of the patient, a position of the three dimensional computer model of the implant relative to the three dimensional computer model of the femur of the patient being reflective of the implant being implanted on the femur; and iii) computer defining a resection of the femur in the computer model of the femur of the patient based on the position of the three dimensional computer model of the implant relative to the three dimensional computer model of the femur of the patient; b) computer referencing the computer defined resection to a registration surface of the three dimensional computer model of the femur of the patient such that a position of the computer defined resection relative to the registration surface is reflective of a position of an actual resection to be made in the femur of the patient during the arthroplasty procedure and according to the operative plan; and c) guiding a cutting tool in resecting the femur according the operative plan subsequent the femur being contacted at a location corresponding to the registration surface of the three dimensional computer model of the femur of the patient, the contact registering the computer defined resection with the femur. 18. The method of claim 17 , wherein the contacting the femur is via a mating surface defined in an arthropla