Orthopaedic system with insert having a post for medial pivoting of a femoral component

What is claimed is: 1 . A posterior-stabilized orthopaedic system comprising: a femoral component having a medial condyle, a lateral condyle spaced apart from the medial condyle by a notch, and cam located in the notch between the medial and lateral condyles; and a tibial insert having a medial articular surface, a lateral articular surface, and a post located between the medial and lateral articular surfaces, wherein the medial and lateral articular surfaces are asymmetrically-shaped relative to each other, wherein the medial condyle of the femoral component is configured to articulate on the medial articular surface of the tibial insert and the lateral condyle of the femoral component is configured to articulate on the lateral articular surface of the tibial insert during flexion and wherein the cam of the femoral component initially contacts a posterior surface of the post of the tibial insert at a contact location on the post during flexion, wherein, when the tibial insert is viewed in a sagittal plane, the medial articular surface of the tibial insert includes a dwell point that is spaced by a distance in an anterior-posterior direction from the contact location of the post, the distance being less than or equal to 5 millimeters wherein the lateral articular surface includes an arcuate path along which the lateral condyle of the femoral component moves when the femoral component articulates on the tibial insert such that the lateral condyle pivots about a pivot point located on the medial articular surface, the arcuate path being defined by a radius having an origin located at the pivot point of the medial articular surface, wherein the post of the tibial insert, when viewed in a transverse plane, includes a curved lateral-anterior surface located between a lateral surface and an anterior surface of the post, a curved medial-anterior surface located between a medial surface and the anterior surface of the post, a curved lateral-posterior surface located between the lateral surface and a posterior surface of the post, and a curved medial-posterior surface located between the medial surface and the lateral surface of the post, wherein a radius of curvature of each of the curved lateral-anterior surface and the curved medial-posterior surfaces is greater than a radius of curvature of the curved lateral-posterior surface of the post. 2 . The posterior-stabilized orthopaedic system of claim 1 , wherein the dwell point is located on the medial articular surface of the tibial insert a distance from a posterior medial lip of the medial articular surface that is no more than 37% the overall anterior-posterior length of the medial articular surface. 3 . The posterior-stabilized orthopaedic system of claim 1 , wherein the tibial insert includes an anterior medial lip having a first height and an anterior lateral lip having a second height, and wherein the first height of the anterior medial lip is greater than the second height of the anterior lateral lip. 4 . The posterior-stabilized orthopaedic system of claim 1 , wherein the post has a medial side and a lateral side that is asymmetric with the medial side when viewed in a transverse plane. 5 . The posterior-stabilized orthopaedic system of claim 1 , wherein the post has an asymmetric profile when viewed in a transverse plane. 6 . The posterior-stabilized orthopaedic system of claim 1 , wherein the medial articular surface of the tibial insert and a femoral articular surface of the medial condyle of the femoral component are more conforming than the lateral articular surface of the tibial insert and a femoral articular surface of the lateral condyle of the femoral component. 7 . The posterior-stabilized orthopaedic system of claim 6 , wherein the medial articular surface of the tibial insert and the femoral articular surface of the medial condyle have a medial-lateral conformity of at least 93%, and wherein the lateral articular surface of the tibial insert and the femoral articular surface of the lateral condyle have a medial-lateral conformity of at least 93%.