Small form factor muscular-skeletal parameter measurement system

What is claimed is: 1. A small form factor measurement system for measuring loading applied by a muscular-skeletal system comprising: a first support structure; a sensor array overlying the first support structure wherein load bearing surfaces of each sensor of the sensor array are approximately co-planar; a load plate overlying the sensor array, wherein the load plate is configured to move under loading within the housing; and a second support structure coupled to the first structure to form a housing wherein at least one alignment feature of the first support structure extends from the first support structure through an opening in the load plate and couples to the second support structure, wherein the load plate is within the housing isolated from an external environment. 2. The measurement system of claim 1 further including: a single printed circuit board; and electronic circuitry and a power source coupled to the single printed circuit board wherein the electronic circuitry is configured to control a measurement process, receive measurement data, and transmit measurement data, wherein the sensor array is coupled to the electronic circuitry, wherein the first and second support structures form a unicondylar insert configured to couple to a single condyle, wherein the load plate is coupled between the second support structure and the sensor array and is configured to move under loading and wherein a portion of the single printed circuit board and the electronic circuitry underlies the load plate. 3. The measurement system of claim 1 wherein a load bearing surface of each sensor of the sensor array couples to the load plate and wherein an interconnect couples the sensor array to the electronic circuitry. 4. The measurement system of claim 1 the at least one alignment feature is configured to align the load plate to each sensor of the sensor array and wherein the at least one alignment feature is configured to support vertical movement of the load plate when a load is applied to a surface of the second support structure. 5. The measurement system of claim 1 wherein a major surface of the load plate couples to an interior surface of the second support structure. 6. The measurement system of claim 1 wherein the load plate comprises steel and wherein the load plate has planar surfaces. 7. The measurement system of claim 1 wherein the electronic circuitry underlies at least a portion of the load plate. 8. The measurement system of claim wherein the load bearing surfaces of the sensor array are planar. 9. The measurement system of claim 1 wherein the at least one alignment feature comprises at least two posts extending from the first support structure and coupling to the second support structure. 10. The measurement system of claim 1 wherein each sensor of the sensor array couples to a load pad formed in the first support structure. 11. The measurement system of claim 1 wherein the first support structure is hermetically sealed to second support structure to isolate the electronic circuitry and sensor array from the external environment. 12. A small form factor measurement system for measuring loading applied by a muscular-skeletal system comprising: a first support structure; a sensor array overlying the first support structure wherein a load bearing surface of each sensor of the sensor array are approximately co-planar; a load plate overlying the sensor array; a single printed circuit board; electronic circuitry and a power source coupled to the single printed circuit board wherein the electronic circuitry is configured to control a measurement process, receive measurement data, and transmit measurement data and wherein the sensor array is coupled to the electronic circuitry; a second support structure coupled to the first structure forming a hermetically sealed housing to isolate the electronic circuitry and the sensor array from an external environment wherein the first and second support structures form a unicondylar insert configured to couple to a single condyle, wherein the load plate is coupled between the second support structure and the sensor array and is configured to move under loading and wherein a portion of the single printed circuit board and the electronic circuitry underlies the load plate; and at least one alignment feature extending from the first support structure through an opening in the load plate to the second support structure wherein the at least one alignment feature aligns the load plate to the sensor array, aligns the load plate to the second support structure, and supports vertical movement of the load plate. 13. The measurement system of claim 12 wherein the load bearing surface of each sensor couples to the load plate and wherein an interconnect couples the sensor array to the electronic circuitry. 14. The measurement system of claim 12 wherein the first support structure or the second support structure comprises a polymer material. 15. The measurement system of claim 12 wherein the load plate comprises steel, wherein the load plate is rigid, and wherein a major surface of the load plate couples to an interior surface of the second support structure. 16. The measurement system of claim 12 wherein each sensor is a planar structure. 17. The measurement system of claim 12 wherein each sensor of the sensor array couples to a load pad formed in the first support structure.