Medial stabilized orthopaedic knee prosthesis

The invention claimed is: 1. An orthopaedic knee prosthesis comprising: a femoral component having a lateral condyle and a medial condyle, wherein the medial condyle includes a femoral articular surface defined by a plurality of curved femoral surface sections that includes a first curved femoral surface section defined by a continually decreasing radius of curvature; and a tibial insert having a lateral articular surface configured to articulate with the lateral condyle of the femoral component and a medial articular surface configured to articulate with the medial condyle of the femoral component, wherein the medial articular surface is asymmetrically shaped relative to the lateral articular surface and includes a medial dwell point that defines a distal-most point on the medial articular surface, wherein the medial condyle contacts the medial dwell point at a first contact point on the first curved femoral surface section at a first degree of flexion and contacts the medial dwell point at a second contact point on the first curved femoral surface section at a second degree of flexion, wherein the second contact point is posterior of the first contact point and wherein the second degree of flexion is greater than the first degree of flexion, and wherein the medial articular surface includes a sagittal concave curvature that has a first sagittal conformity with the medial condyle at a location anterior to dwell point at the first degree of flexion and a second sagittal conformity with the medial condyle at the location anterior to the dwell point at the second degree of flexion, wherein the second sagittal conformity is greater than the first sagittal conformity to reduce anterior translation of the medial condyle at the second degree of flexion. 2. The orthopaedic knee prosthesis of claim 1 , wherein the medial condyle of femoral component includes a sagittal convex curvature, and wherein a sagittal conformity between the sagittal concave curvature of the medial articular surface and sagittal concave curvature of the medial condyle is greater at a first degree of flexion of the femoral condyle than at extension. 3. The orthopaedic knee prosthesis of claim 1 , wherein the medial articular surface includes a coronal concave curvature and wherein a coronal conformity between the coronal concave curvature and the medial condyle at the degree of flexion is greater at the medial dwell point of the medial articular surface than at the location on the medial articular surface that is anterior of the medial dwell point, and wherein the medial articular surface is non-uniform anterior of the medial dwell point and uniform posterior of the medial dwell point. 4. The orthopaedic knee prosthesis of claim 1 , wherein the medial condyle and the medial articular surface are more conforming with each other than the lateral condyle and the lateral articular surface. 5. The orthopaedic knee prosthesis of claim 1 , wherein the medial articular surface includes a coronal concave curvature and wherein a coronal conformity between the coronal concave curvature and the medial condyle is greater when the femoral component is positioned at extension than when the femoral component is positioned at a later degree of flexion. 6. The orthopaedic knee prosthesis of claim 1 , wherein the lateral articular surface includes an arcuate articular path that when viewed in a cross-section plane has a curvature that includes a planar section, an anterior curved section located anterior of the semi-planar section, and a plurality of posterior curved sections located posterior of the planar section, and wherein the semi-planar section defines a distal-most area of the lateral articular surface and wherein each posterior curved section is defined by a corresponding radius of curvature, and wherein the radii of curvature of the plurality of posterior curved sections decrease posteriorly. 7. The orthopaedic knee prosthesis of claim 1 , wherein the sagittal concave curvature of the medial articular surface, when viewed in a sagittal plane, includes a plurality of curved sections and wherein the medial dwell point is located on the sagittal concave curvature, and wherein the plurality of curved sections includes a first curved section adjacent to the medial dwell point and extending posterior therefrom, a second curved section adjacent the medial dwell point and extending anterior therefrom, a third curved section adjacent to the second curved section and extending anterior therefrom, a fourth curved section adjacent to the third curved section and extending anterior therefrom, and a fifth curved section adjacent the fourth curved section and extending anterior therefrom, wherein a radius of curvature of the first curved section is greater than a radius of curvature of the second curved section and wherein a radius of curvature of the third curved section is less that the radius of curvature of the second curved section, less than a radius of curvature of the fourth curved section, and less than a radius of the fifth radius of curvature. 8. The orthopaedic knee prosthesis of claim 1 , wherein a distal-most point of the femoral articular surface when the femoral component is in extension defines zero degrees of flexion, and wherein the first curved femoral surface section extends from a first degree of flexion of about 5 degrees to a second degree of flexion of about 65 degrees and is defined by a plurality of rays extending from a common origin to a corresponding point on the second curved femoral surface section, and wherein each ray has a length defined by the following polynomial equation: r θ =( a +( b *θ)+( c*θ 2 )+( d*θ 3 )), wherein r θ is the length of the ray defining a point on the second curved femoral surface section at θ degrees of flexion, a is a coefficient value between 20 and 50, and b is a coefficient value in a range selected from the group consisting of: −0.30<b<0.00, 0.00<b<0.30, and b=0, wherein when b is in the range of −0.30<b<0.00, (i) c is a coefficient value between 0.00 and 0.012 and (ii) d is a coefficient value between −0.00015 and 0.00, wherein when b is in the range of 0<b<0.30, (i) c is a coefficient value between −0.010 and 0.00 and (ii) d is a coefficient value between −0.00015 and 0.00, and wherein when b is equal to 0, (i) c is a coefficient value in a range selected from the group consisting of: −0.0020<c<0.00 and 0.00<c<0.0025 and (ii) d is a coefficient value between −0.00015 and 0.00. 9. The orthopaedic knee prosthesis of claim 8 , wherein the plurality of curved femoral surface sections includes a second curved femoral surface section posteriorly adjacent the first curved femoral section, wherein the second curved femoral surface section is defined by a constant radius of curvature greater than a posterior-most radii of curvature of the first curved femoral surface section. 10. An orthopaedic knee prosthesis comprising: a femoral component having a lateral condyle and a medial condyle, wherein the medial condyle includes a femoral articular surface defined by a plurality of curved femoral surface sections that includes a first curved femoral surface section and a second curved femoral surface section posteriorly adjacent the first curved femoral surface section, wherein the first curved femoral surface section is defined by a continually decreasing radius of curvature and the second curved femoral surface section is defined by a constant radius of curvature greater than a posterior-most radii of curvature of the first curved femoral surface section; and a tibial insert having a lateral articular surface configured to articulate with the lateral condyle of the femoral component and a medial articular sur