Bone fixation plate system and method

What is claimed is: 1. A bone plate fixation system, comprising: a bone plate having an upper surface, a bone-contacting lower surface, and a plurality of holes passing through the upper and bone-contacting surfaces, each hole defined by a wall having a chamfered entrance portion near the upper surface, a partially spherical exit portion near the bone-contacting lower surface, a circular recess located between the entrance portion and the exit portion, and a flared portion defining a gap flaring outwardly from the partially spherical portion to the recess; a plurality of resilient locking rings, each pre-assembled into one of the circular recesses of the wall; and a plurality of bone screws for fixing the bone plate with respect to a bone, each bone screw having an outwardly curved head and a shaft with a thread for engaging the bone; wherein each hole is sized to pass the respective bone screw in an insertion direction and while the bone screw is being inserted, the locking ring resiliently deflects downwardly within the gap in the insertion direction to allow the bone screw curved head to pass and then deflects back, providing tactile feedback that the bone screw is sufficiently seated within the hole, and locking the bone screw to the bone plate, wherein each locking ring is formed as a complete circle comprising a superior surface, an inferior surface, an inner surface with a curved profile to facilitate insertion of the curved head, and an outer surface with a curved profile, the inner surface including only four cutouts distributed at equal distances from each other around the locking ring for facilitating the deflection of the locking ring in the insertion direction, and the superior surface being flush with an upper portion of the respective recess, thereby inhibiting resilient deflection of the locking ring in a direction opposite the insertion direction. 2. The system of claim 1 , wherein each locking ring is shaped to resist resilient deflection of the locking ring in the insertion direction of the bone screw less than the locking ring resists resilient deflection of the locking ring in the direction opposite the insertion direction. 3. The system of claim 1 , wherein each locking ring is cooperatively received in the respective recess such that the recess permits resilient deflection of the locking ring in only the insertion direction of the bone screw. 4. The system of claim 1 , wherein each entrance near the upper surface of the bone plate is chamfered to facilitate insertion of the respective bone screw. 5. A bone plate fixation system, comprising: a bone plate having an upper surface, a bone-contacting lower surface, and a plurality of holes passing through the upper and lower bone-contacting surfaces, each hole defined by a wall having a chamfered entrance portion near the upper surface, a partially spherical exit portion near the bone-contacting lower surface, an annular recess located between the entrance portion and the exit portion, and a flared portion defining a gap flaring outwardly from the partially spherical portion to the recess; a plurality of resilient, closed circular locking rings, each pre-assembled into one of the annular recesses of the wall; and a plurality of bone screws for fixing the bone plate with respect to a bone, each bone screw having a partially spherical head and a shaft with a thread for engaging the bone; wherein each hole is sized to pass the respective bone screw in an insertion direction and while the bone screw is being inserted, the locking ring resiliently deflects downwardly within the gap in the insertion direction to allow the bone screw head to pass and then deflects back, providing tactile feedback that the bone screw is sufficiently seated within the hole, and locking the bone screw to the bone plate; wherein each locking ring comprises a superior surface, an inferior surface, an inner surface with a curved profile to facilitate insertion of the curved head, and an outer surface with a curved profile, the inner surface including only four cutouts distributed at equal distances from each other around the locking ring for facilitating the deflection of the locking ring in the insertion direction, and the superior surface being flush with an upper portion of the respective recess, thereby inhibiting resilient deflection of the locking ring in a direction opposite the insertion direction. 6. The system of claim 5 , wherein each locking ring is shaped to resist resilient deflection of the locking ring in the insertion direction of the bone screw less than the locking ring resists resilient deflection of the locking ring in the direction opposite the insertion direction. 7. The system of claim 5 , wherein each locking ring is cooperatively received in the respective recess such that the recess permits resilient deflection of the locking ring in only the insertion direction of the bone screw. 8. The system of claim 5 , wherein each entrance near the upper surface of the bone plate is chamfered to facilitate insertion of the respective bone screw.