Medial-lateral insert sensing system with common module and method therefor

What is claimed is: 1. A knee measurement system comprising: a measurement module comprising: a first support structure having an exterior medial surface and an exterior lateral surface wherein the exterior medial surface of the first support structure has a first, a second, and a third raised regions located at vertexes of a first polygon on the exterior medial surface and wherein the exterior lateral surface has a fourth, a fifth, and a sixth raised regions located at vertexes of a second polygon on the exterior lateral surface; a second support structure having an exterior medial surface and an exterior lateral surface wherein the first and second support structures couple together to form a housing; a first load sensor, a second load sensor, a third load sensor, a fourth load sensor, a fifth load sensor, and a sixth load sensor wherein the first, second, and third load sensors respectively underlie the first, second, and third raised regions of the exterior medial surface and wherein the fourth, fifth, and sixth load sensors respectively underlie the fourth, fifth, and sixth raised regions of the exterior lateral surface; electronic circuitry couples to the plurality of sensors wherein the electronic circuitry controls a measurement process and transmits measurement data; and a computer configured to receive the measurement data and display the measurement data. 2. The knee measurement system of claim 1 wherein the exterior medial surface of the first support structure differs from the exterior lateral surface of the first support structure by area, shape, or contour. 3. The knee measurement system of claim 1 wherein the measurement module is non-symmetrical about an anterior-posterior (A-P) axis. 4. The knee measurement system of claim 1 wherein a portion of a first power source couples between the exterior medial surface of the first support structure and the exterior medial surface of the second support structure, wherein a portion of a second power source couples between the exterior lateral surface of the first support structure and the exterior lateral surface of the second support structure, and wherein the measurement module is configured to not load the first power source or the second power source under compression in a prosthetic knee joint. 5. The knee measurement system of claim 1 wherein the first, second, third, fourth, fifth, and sixth load sensors are MEMs devices. 6. The knee measurement system of claim 1 further including: a first exterior peripheral raised region coupling to the first, second, and third raised regions of the first support structure; and a second exterior peripheral raised region coupling to the fourth, fifth, and sixth raised regions of the first support structure. 7. The knee measurement system of claim 1 further including a tongue on the first support structure and glue channel on the second support structure wherein the tongue of the first support structure is configured to be inserted in the glue channel of the second support structure, and wherein an adhesive in the glue channel seals the first support structure to the second support structure such that the measurement module is hermetically sealed. 8. The knee measurement system of claim 1 further including a first shim of a first type configured to couple to the first support structure wherein the first shim includes a first column, a second column, and a third column configured to respectively couple to the first, second, and third raised regions of the first support structure, wherein the first shim includes a fourth column, a fifth column, and a sixth column configured to respectively couple to the fourth, fifth, and sixth raise regions of the first support structure, wherein the first, second, and third columns couple to a medial articular surface of the first shim, and wherein the fourth, fifth, and sixth columns couple to a lateral articular surface of the first shim. 9. The knee measurement system of claim 1 further including: wherein the exterior medial surface of the second support structure has a first, a second, and a third raised regions located at vertexes of the first polygon and wherein the exterior lateral surface has a fourth, a fifth, and a sixth raised regions located at vertexes of a second polygon; and a second shim of a second type configured to couple to the second support structure wherein the second shim includes a first column, a second column, and a third column configured to respectively couple to the first, second, and third raised regions of the second support structure, wherein the second shim includes a fourth column, a fifth column, and a sixth column configured to respectively couple to the fourth, fifth, and sixth raise regions of the second support structure, wherein the first, second, and third columns couple to a medial articular surface of the second shim, and wherein the fourth, fifth, and sixth columns couple to a lateral articular surface of the second shim. 10. A knee measurement system comprising: a measurement module comprising: a first support structure having an exterior medial surface and an exterior lateral surface wherein the first support structure includes at least one raised region on an interior medial surface or an interior lateral surface that aligns to vertexes of a first polygon or a second polygon; a second support structure having an exterior medial surface and an exterior lateral surface wherein the second support structure includes at least one raised region on an interior medial surface or an interior lateral surface that aligns to the at least one raised region on the interior medial surface or the interior lateral surface of the first support structure; a first plurality of load sensors placed at the vertexes of the first polygon wherein each sensor of the first plurality of load sensors couples between the exterior medial surface of the first support structure and the exterior medial surface of the second support structure; a second plurality of load sensors placed at the vertexes of the second polygon wherein each sensor of the second plurality of load sensors couples between the exterior lateral surface of the first support structure and the exterior lateral surface of the second support structure and wherein the first polygon differs from the second polygon; electronic circuitry coupled to the plurality of sensors wherein the electronic circuitry controls a measurement process and transmits measurement data; and a computer configured to receive the measurement data and display the measurement data. 11. The knee measurement system of claim 10 wherein the measurement module is non-symmetrical about an anterior-posterior (A-P) axis. 12. The knee measurement system of claim 10 wherein the exterior medial surface of the first support structure differs in area, shape, or contour from the exterior lateral surface. 13. The knee measurement system of claim 10 wherein the first support structure includes at least one raised region on the exterior medial surface or the exterior lateral surface, wherein the second support structure includes at least one raised region on the exterior medial surface or the exterior lateral surface, wherein the at least one raised region of the first support structure aligns to the at least one raised region of the second support structure, and wherein the at least one raised region of the first and second support structure aligns with a vertex of the first or second polygons. 14. The knee measurement system of claim 10 wherein the first plurality of load sensors or the second plurality of load sensors comprises at least one of capac