Patent ID: 8187336
Filing Date: 2012-05-29
Classification: A61B,A61F,A61L

Abstract:
1. A method for reconstructing osseous skeletal defects in a femur, said method comprising the steps of: (a) measuring and documenting the damaged or diseased femur; (b) determining a resection point in said femur; (c) designing and fabricating a femoral prosthesis in conformity with the patient's needs and surgical objectives, the femoral prosthesis including an insertable rod that will extend axially and longitudinally into host bone a predetermined depth; (d) determining whether to use a customized or prefabricated bone growth housing; (e) manufacturing said bone growth housing; (f) resecting said damaged or diseased femur by perpendicularly cutting and removing the diseased or damaged area of the femur such that the remaining bone shaft is able to support a new prosthetic apparatus; (g) expanding the residual bone shaft as necessary to size and shape it for a tight, intimate contact between the femur and the insertable rod of the prosthesis; (h) determining a desired height of the prosthesis above the remaining bone; (i) installing the insertable rod of the prosthesis into the residual bone shaft to said predetermined depth; (j) installing the bone growth housing; (k) wrapping a proximal margin of the bone growth housing over and around an upper, proximal portion of the prosthesis circumferentially, thereby enclosing that portion of the prosthesis, and bringing a distal margin of the bone growth housing down and wrapping said distal margin over and around the residual bone shaft; (l) cutting the bone growth housing at the desired level over the residual bone shaft such that it overlaps the bone; (m) tightening and attaching the bone growth housing at its distal margin over the residual bone shaft so as to define and enclose a cavitary space around the prosthesis at the point of the residual bone shaft; (n) if applicable, passing tendons through an aperture in the bone growth housing and attaching them to the prosthesis; (o) filling the cavitary space with osteoconductive and/or inductive materials thereby creating a bed of bone graft material; (p) attaching the proximal margin of the bone growth housing to the upper, proximal portion of the prosthesis so as to enclose the entire cavitary space, said cavitary space modeled to substantially match the shape of the removed area of the femur; and (q) reducing the joint into its socket; wherein said bone growth housing comprises a perforated flexible sheet forming said cavitary space, which cavitary space circumferentially surrounds said prosthesis between said flexible member and said prosthesis; said perforations being between 100 and 2000 micrometers in diameter so as to allow for the ingress of blood vessels during the maturation process of reconstructed bone; and wherein the prosthesis is supported by the bed of graft material surrounding it and is gradually unloaded as the bed matures into a new column of solid bone.