Power seat length adjuster assembly and method of manufacture

What is claimed is: 1. A seat adjustment assembly comprising: a housing; a worm disposed within the housing for rotation about a first axis and having a helical thread defining an arcuate profile extending along the first axis; a gear disposed within the housing for rotation about a second axis and meshingly-engaged with the worm; and a rail extending through the housing and the gear for rotation about a third axis, the rail being meshingly-engaged with the gear. 2. The seat adjustment assembly of claim 1 , wherein the gear includes an inner thread and the rail includes an outer thread meshingly-engaged with the inner thread. 3. The seat adjustment assembly of claim 2 , wherein the helical thread defines a first diameter, a second diameter, and a third diameter disposed between the first diameter and the second diameter relative to the first axis. 4. The seat adjustment assembly of claim 3 , wherein the third diameter is greater than the first diameter and the second diameter. 5. The seat adjustment assembly of claim 1 , wherein the housing includes a proximal cover formed from a resilient material and having an aperture, the rail being rotatably disposed within the aperture. 6. The seat adjustment assembly of claim 1 , further comprising at least one support member engaging the housing. 7. The seat adjustment assembly of claim 6 , wherein the at least one support member defines a U-shaped construct having a channel, the housing being disposed within the channel in a friction-fit configuration. 8. The seat adjustment assembly of claim 6 , wherein the at least one support member includes a first support member and a second support member, the housing being disposed between the first support member and the second support member in a friction-fit configuration. 9. The seat adjustment assembly of claim 6 , wherein the at least one support member includes a laterally-extending ear portion and a medially-extending ear portion. 10. The seat adjustment assembly of claim 1 , wherein the gear includes a plurality of recesses defining a corresponding plurality of gear teeth. 11. The seat adjustment assembly of claim 10 , wherein the plurality of gear teeth define at least one continuous radially-extending surface configured to slidably engage the housing. 12. The seat adjustment assembly of claim 10 , wherein the gear includes a proximal annular surface and a distal annular surface formed at an opposite end of the gear from the proximal annular surface, wherein the recesses extend between the proximal annular surface and the distal annular surface. 13. The seat adjustment assembly of claim 1 , further comprising a bushing supported by the housing and rotatably coupled to the gear, the bushing having an anti-rotation feature configured to inhibit rotation of the bushing relative to the housing. 14. The seat adjustment assembly of claim 1 , wherein the worm is formed at least in part from a PEEK material. 15. The seat adjustment assembly of claim 1 , further comprising a first track and a second track translatably engaging the first track. 16. The seat adjustment assembly of claim 15 , further comprising a support member engaging the housing and including a retaining feature aligned with an upper aperture of the second track. 17. The seat adjustment assembly of claim 16 , wherein the retaining feature includes a pin portion mounted within the upper aperture. 18. The seat adjustment assembly of claim 17 , wherein the pin portion is mounted within the upper aperture by means of riveting. 19. The seat adjustment assembly of claim 17 , wherein the pin portion is mounted within the upper aperture by means of welding. 20. A seat adjustment assembly for a track assembly having a first track and a second track translatably engaging the first track, the seat adjustment assembly comprising: a housing; a worm disposed within the housing for rotation about a first axis and having a helical thread defining an arcuate profile extending along the first axis; a gear disposed within the housing for rotation about a second axis and meshingly-engaged with the worm; a spindle screw extending through the housing and the gear for rotation about a third axis, the spindle screw being meshingly-engaged with the gear; and a support member engaging the housing and including a retaining feature aligned with an upper aperture of the second track, wherein the retaining feature includes a pin portion mounted within the upper aperture by means of riveting or welding.