Systems and methods related to the treatment of back pain

The invention claimed is: 1. An electrical stimulation device comprising: a monopolar electrode adapted for insertion within an animal body; a percutaneous lead operatively coupled with the monopolar electrode; and an external pulse generator operatively coupled with the electrode through the percutaneous lead, wherein the pulse generator delivers electrical stimulation to peripheral nerves generating neurally encoded signals in afferent nerve fibers to evoke changes in central processing of pain without stimulation of muscles at a level necessary to cause functional changes. 2. The electrical stimulation device of claim 1 , wherein the percutaneous lead is a coiled lead. 3. The electrical stimulation device of claim 1 , wherein the percutaneous lead includes an insulated portion and a deinsulated portion whereby the deinsulated portion forms the monopolar electrode. 4. The electrical stimulation device of claim 3 , wherein the percutaneous lead includes a barb formed from the deinsulated portion. 5. The electrical stimulation device of claim 3 , wherein the percutaneous lead includes a taper between the insulated portion and deinsulated portion. 6. The electrical stimulation device of claim 1 , wherein the pulse generator is wirelessly powered. 7. The electrical stimulation device of claim 1 , wherein the generator comprises a housing with a clip configured to attach to a belt. 8. The electrical stimulation device of claim 1 , wherein the pulse generator comprises a display. 9. The electrical stimulation device of claim 1 , wherein the pulse generator comprises a user control. 10. The electrical stimulation device of claim 9 , wherein the user control comprises an increment switch, a decrement switch, and a select switch. 11. The electrical stimulation device of claim 10 , wherein the increment and decrement switches cycle through operational modes. 12. The electrical stimulation device of claim 10 , wherein the select switch is used to display different operational patterns of the electrical stimulation. 13. The electrical stimulation device of claim 10 , wherein the select switch is a power on/off toggle switch. 14. The electrical stimulation device of claim 1 , wherein the percutaneous lead is fabricated from a 7-strand stainless steel wire insulated with a biocompatible polymer. 15. The electrical stimulation device of claim 1 , wherein the pulse generator comprises a microprocessor-based stimulation pulse generator circuit with a micro controller. 16. An electrical stimulation device comprising: a monopolar electrode adapted for insertion within an animal body; a percutaneous lead operatively coupled with the monopolar electrode; and an external pulse generator operatively coupled with the electrode through the percutaneous lead, wherein the pulse generator delivers electrical stimulation activating peripheral nerves and paraspinal muscles generating neurally encoded signals in afferent nerve fibers to evoke changes in central processing of pain-without mechanical stabilization. 17. The electrical stimulation device of claim 16 , wherein the pulse generator comprises an increment switch, a decrement switch, and a select switch. 18. The electrical stimulation device of claim 17 , wherein the increment and decrement switches cycle through operational modes, the select switch is used to display different operational patterns and the select switch is a power on/off toggle switch. 19. The electrical stimulation device of claim 16 , wherein the percutaneous lead is fabricated from a 7-strand stainless steel wire insulated with a biocompatible polymer. 20. An electrical stimulation device comprising: at least one electrode adapted for insertion below skin of an animal body; and an external pulse generator operatively coupled with the at least one electrode, wherein the pulse generator delivers electrical stimulation for a prescribed period of time to activate peripheral nerves of the dorsal ramus in a back of the animal body to generate neurally encoded signals in afferent nerve fibers to evoke changes in central processing of pain without stimulation of muscles at a level necessary to cause functional changes. 21. The electrical stimulation device of claim 20 , wherein the pulse generator comprises a microprocessor-based stimulation pulse generator circuit with a micro controller.