Methods related to seating of bearing component on tibial tray

What is claimed is: 1. A method of inserting a bearing component onto a tibial tray implanted on a knee, the method comprising: positioning the tibial tray within the knee via an incision, the tibial tray having a support surface sized to receive the bearing component and a boss projecting proximally from the support surface; inserting the bearing component, while avoiding an extensor mechanism of the knee, through the incision in an anterior-medial insertion direction to position a distal surface of the bearing component atop the support surface of the tibial tray, the bearing component having a notch formed in the distal surface and configured to receive the boss of the tibial tray; rotating the bearing component about an axis of rotation positioned laterally of an anterior-posterior midline of the tibial tray to move the bearing component to a final seated position on the tibial tray, wherein the boss of the tibial tray includes a rail, the notch of the bearing component includes a groove, and the step of rotating the bearing component about an axis of rotation includes a portion of the rail being received in the groove formed in the notch; wherein subsequent rotation of the bearing component results in an interference fit between the rail of the boss and the groove of the notch. 2. The method of claim 1 , wherein the rail is disposed at a posterior end of the tibial tray, the groove is disposed at a posterior end of the bearing component, and the final seated position of the bearing component includes engagement between the groove and the rail to secure the bearing component to the tibial tray. 3. The method of claim 2 , wherein the rail includes a medial projecting rail and a lateral projecting rail, and the groove includes a medial groove for engagement with the medial projecting rail and a lateral groove for engagement with the lateral projecting rail. 4. A method of inserting a bearing component onto a tibial tray via an incision providing access to a knee, the knee having an extensor mechanism, the method comprising: providing the tibial tray having a support surface sized to receive the bearing component; positioning the tibial tray within the knee via the incision; providing the bearing component having at least one concave articulating surface and an opposing distal surface; inserting the bearing component, while avoiding the extensor mechanism, through the incision in an anterior-medial insertion direction to position the distal surface of the bearing component atop the support surface of the tibial tray; seating the bearing component onto the tibial tray comprising rotating the bearing component about an axis of rotation displaced laterally of an anterior-posterior midline of tibial tray; and mating a boss and notch of the bearing component and the tibial tray, the boss and notch having corresponding shapes that are configured to allow for the rotating of the bearing component to provide a final alignment of the bearing component with the tibial tray, the boss and notch are configured to provide for a locking engagement of the bearing component with the tibial tray in the manner of a fixed-bearing prosthesis. 5. The method of claim 4 , wherein: the step of providing the bearing component comprises providing the bearing component including a distal tab projecting distally from the distal surface, the step of providing the tibial tray comprises providing the tibial tray including a proximal depression in the support surface, the proximal depression sized for receipt of the distal tab of the bearing component, the proximal depression having a proximal depression perimeter, the distal tab having a distal tab perimeter, the proximal depression perimeter congruent to the distal tab perimeter, and the step of seating the bearing component onto the tibial tray further comprises positioning the distal tab of the bearing component into the proximal depression of the tibial tray. 6. The method of claim 5 , wherein the step of providing the tibial tray comprises providing the tibial tray including a ramped proximal groove in the support surface for receipt of the distal tab of the bearing component, and wherein the step of seating the bearing component onto the tibial tray further comprises urging the distal tab of the bearing component into the ramped proximal groove of the tibial tray such that the distal tab is received in the ramped proximal groove prior to being received into the proximal depression. 7. The method of claim 4 , wherein the step of providing the tibial tray comprises providing the tibial tray including a medial perimeter wall having a plurality of surfaces defining a medially positioned aperture, wherein the step of providing the bearing component comprises providing the bearing component including a medial edge having medially positioned tab projecting from the medial edge, the medially positioned tab shaped for receipt into the medially positioned aperture of the tibial tray, and wherein the step of seating the bearing component onto the tibial tray further comprises positioning the medially positioned tab of the bearing component into the medially positioned aperture of the tibial tray. 8. The method of claim 4 , wherein the step of inserting the bearing component comprises inserting the bearing component along an angle ranging from greater than zero to 90 degrees from a sagittal plane. 9. The method of claim 4 , wherein the step of inserting the bearing component comprises inserting the bearing component along an angle ranging from greater than zero to 30 degrees from a sagittal plane. 10. The method of claim 4 , wherein the step of inserting the bearing component comprises inserting the bearing component along an angle ranging from 8 to 10 degrees from a sagittal plane. 11. The method of claim 4 , wherein the step of providing the tibial tray comprises providing the tibial tray including the boss and a boss rail, the boss rail having an increasing thickness in a direction from an anterior end of the tibial tray towards a posterior end of the tibial tray, and wherein the step of providing the bearing component comprises providing the bearing component comprising the notch shaped to receive the boss, the notch comprising an internal groove sized to receive of the boss rail, the internal groove having an increasing thickness corresponding to the increasing thickness of the boss rail. 12. The method of claim 11 , wherein the step of seating the bearing component onto the tibial tray comprises: advancing the boss of the tibial tray into the notch of the bearing component, and rotating the bearing component until the boss rail of the tibial tray forms the locking engagement with the internal groove of the notch of the bearing component. 13. The method of claim 4 , wherein the step of positioning the tibial tray comprises positioning the tibial tray including the boss including: a concave lateral side facing a lateral edge of the tibial tray, and a convex medial side facing a medial edge of the tibial tray; and wherein the step of seating the bearing component onto the tibial tray comprises: advancing the boss of the tibial tray into the notch, and rotating the bearing component until medial and lateral projecting rails of the tibial tray form a locking engagement with medial and lateral grooves of the bearing component, respectively. 14. A method of inserting a bearing component onto a tibial tray via an incision providing access to a knee, the knee having an extensor mechanism, the method comprising: providing the tibial tray having a support surface sized to receive the bearing compon