Polyaxial bone screw with increased angulation

The invention claimed is: 1. A polyaxial bone screw device, comprising: a screw having a head and a shaft; a screw housing defining a bore that extends along a longitudinal axis, the screw housing including: a basewall defining an aperture to receive a portion of the screw; opposed sidewalls that extend from the basewall and define a rod-receiving channel; and a transverse hole extending at least partially through one of the opposed sidewalls and being in communication with the bore; an anvil disposed within the screw housing, the anvil having a body including a threaded surface for threadably mating the anvil within the screw housing and preventing the anvil from moving in a proximal direction upon application of a proximal force, the body of the anvil defining a saddle shaped surface for receiving a spinal rod seated within the rod-receiving channel; and a spring disposed in the transverse hole of the screw housing, extending into the bore of the screw housing and applying a friction force to the screw head when the screw head is seated against the basewall of the screw housing. 2. The polyaxial bone screw device of claim 1 , wherein the basewall further defines a notch configured to receive a portion of the screw. 3. The polyaxial bone screw device of claim 2 , wherein when the screw is positioned along the longitudinal axis, the screw is pivotable in a first direction relative to the screw housing at a first angle and receivable within the notch, and pivotable in a second direction relative to the screw housing at a second angle different than the first angle. 4. The polyaxial bone screw device of claim 3 , wherein the first angle is between approximately 50 degrees and 70 degrees relative to the longitudinal axis of the screw housing and the second angle is between approximately 35 degrees and 55 degrees relative to the longitudinal axis of the screw housing. 5. The polyaxial bone screw device of claim 4 , wherein the first angle is about 60 degrees and the second angle is about 45 degrees. 6. The polyaxial bone screw device of claim 1 , wherein the spring directly engages the screw head and is configured to maintain the shaft at an angular position relative to the longitudinal axis of the screw housing. 7. The polyaxial bone screw device of claim 1 , wherein the screw head includes a textured outer surface that is configured to facilitate frictional engagement with the spring. 8. The polyaxial bone screw device of claim 7 , wherein the textured outer surface comprises an annular rib or a ridge. 9. The polyaxial bone screw device of claim 1 , wherein the anvil is seated on the screw head and the spring directly engages the anvil. 10. The polyaxial bone screw device of claim 1 , wherein the spring directly engages both the anvil and the head of the screw and maintains the shaft of the screw at an angular position relative to the longitudinal axis of the screw housing. 11. The polyaxial bone screw device of 1 , wherein the threaded surface defines a first axial slot. 12. The polyaxial bone screw device of claim 11 , wherein the threaded surface further defines a second axial slot circumferentially spaced about the body of the anvil from the first axial slot. 13. The polyaxial bone screw device of claim 11 , wherein the spring extends into the first axial slot. 14. The polyaxial bone screw device of claim 1 , further comprising a pin disposed within the transverse hole and extending at least partially through the spring. 15. The polyaxial bone screw device of claim 1 , further comprising a set screw threadably received within the bore of the screw housing to secure a spinal rod within the screw housing. 16. A method of assembling a polyaxial bone screw assembly, comprising: providing a screw housing including a basewall and opposed sidewalls that extend from the basewall and collectively define a bore and a rod-receiving channel, the basewall defining a notch configured to receive a portion of a screw therein, the screw housing further defining a transverse hole extending through one of the opposed sidewalls and being in communication with the bore; inserting a spring through the transverse hole of the screw housing, from an exterior of the sidewall into the bore of the screw housing, such that the spring is arranged to provide a friction force to a screw head when the screw is inserted into the bore of the screw housing. 17. The method of claim 16 , further comprising: inserting a pin into the transverse hole of the screw housing to support the spring. 18. The method of claim 16 , further comprising: inserting the screw into the bore of the screw housing; inserting an anvil into the bore of the screw housing and into engagement with the head of the screw, the anvil having a body defining a slot; positioning a portion of the spring into the axial slot; and positioning a portion of the spring into direct engagement with the head of the screw.