Invasive sense measurement in prosthesis installation

What is claimed as new and desired to be protected by Letters Patent of the United States is: 1. A method for insertion of a prosthesis into a prepared cavity in a portion of bone, the prosthesis having a prosthesis profile, the prepared cavity having a cavity profile with the cavity profile configured, responsive to the prosthesis profile, to retain the prosthesis within the prepared cavity, comprising: a) providing an insertion force to the prosthesis, said insertion force configured to insert the prosthesis into the cavity and said insertion force responsive to an applied force directed to a force application structure coupled to the prosthesis, said insertion force including a quantified metric derived from both a known quantified applied force and a known quantified response force; and b) determining, responsive to said quantified metric, a parametric evaluation of an extractive force of an interface between the prosthesis and the cavity. 2. The method of claim 1 further comprising: applying, as part of said step a) providing an insertion force, a first series of application forces with each subsequent application force of said first series of application forces substantially unchanged with respect to a previous application force of said first series of application forces; establishing, as part of said step a) providing an insertion force and responsive to said first series of application forces, a first series of response forces, each said response force of said first series of response forces correspondingly responsive to a particular one application force of said first series of application forces; quantifying a first set of differences between a first set of application forces of said first series of application forces and corresponding response forces of a first set of response forces of said first series of response forces; and wherein said step b) determining a parametric evaluation is responsive to said set of differences; and wherein said first series of application forces includes a number N application forces, N>1. 3. The method of claim 2 wherein N>2. 4. The method of claim 1 wherein said force application structure includes a force application sensor configured to produce said known quantified application force. 5. The method of claim 1 wherein said force application structure includes a force response sensor configure to produce said known quantified response force. 6. The method of claim 4 wherein said force application structure includes a force response sensor configure to produce said known quantified response force. 7. The method of claim 1 wherein each said known quantified applied force, said known quantified response force, and said quantified metric includes a numeric value. 8. The method of claim 6 wherein each said known quantified applied force, said known quantified response force, and said quantified metric includes a numeric value. 9. The method of claim 2 wherein said force application structure includes a force application sensor configured to produce said known quantified application force. 10. The method of claim 2 wherein said force application structure includes a force response sensor configure to produce said known quantified response force. 11. The method of claim 10 wherein said force application structure includes a force response sensor configure to produce said known quantified response force. 12. The method of claim 11 wherein each said known quantified applied force, said known quantified response force, and said quantified metric includes a numeric value, and wherein said number N>2. 13. The method of claim 2 further comprising: determining a time varying parameter of said set of differences, said time varying parameter including a rate of convergence of said known application force to said corresponding known response force; applying, as part of said step a) providing an insertion force when said rate of convergence exceeds a predetermined threshold, a second series of application forces with each subsequent application force of said second series of application forces substantially unchanged with respect to a previous application force of said second series of application forces; establishing, as part of said step a) providing an insertion force and responsive to said second series of application forces, a second series of response forces, each said response force of said second series of response forces correspondingly responsive to a particular one application force of said second series of application forces; quantifying a second set of differences between a second set of application forces of said second series of application forces and corresponding response forces of a second set of response forces of said second series of response forces; and wherein said step b) determining a parametric evaluation is responsive to said second set of differences; and wherein said second series of application forces includes a number N application forces, N>1; and wherein each said known application force of said second series of said application forces substantially unchanged with respect to a previous application force of said second series application forces. 14. An impact control method for inserting prosthesis into a prepared cavity in a portion of bone, the prosthesis having a prosthesis profile, the prepared cavity having a cavity profile with the cavity profile configured, responsive to the prosthesis profile, to retain the prosthesis within the prepared cavity, comprising: a) determining a first series of impact forces applied to an installation tool coupled to the prosthesis, each said impact force of said first series of impact forces having a known magnitude substantially equal to each other; b) determining, responsive to said first series of impact forces, a first series of impact response forces in said installation tool, each said impact response force having a known magnitude; and c) estimating a quality of a seatedness of the prosthesis within the cavity responsive to a comparison of said first series of impact forces to said first series of impact response forces. 15. The method of claim 14 wherein said quality of seatedness includes a quality of fixation of the prosthesis within the cavity. 16. The method of claim 14 wherein said quality of seatedness includes a quality of fracture risk of the prosthesis within the cavity. 17. The method of claim 16 wherein said quality of seatedness includes a quality of fixation of the prosthesis within the cavity. 18. The method of claim 14 wherein said step a) includes quantifying each said impact force using an impact application sensor coupled to said installation tool; and wherein said step b) includes quantifying each said impact response force using an impact response force coupled to said installation tool, said impact response force distinct from said impact application sensor. 19. The method of claim 14 further comprising: increasing said known magnitude of said impact forces when said quality of seatedness is below a predetermined threshold, and thereafter c) determining a second series of impact forces applied to an installation tool coupled to the prosthesis, each said impact force of said second series of impact forces having a known magnitude substantially equal to each other and greater than said impact forces of said first series of impact forces; d) determining, responsive to said second series of impact forces, a second series of impact response forces in said installation tool, each said impa