Electrical stimulator for peripheral stimulation

We claim: 1 . An electrical stimulation system comprising: a lead connector comprising a body comprising at least one funnel shaped end; a coiled lead inserted into said funnel shaped end, wherein the lead connector establishes an electrical connection with the coiled lead and wherein the coiled lead has an engagement force when inserted into a body of a patient; a patient cable selectively attachable to the body, wherein the lead connector establishes an electrical connection with the patient cable; and wherein the lead connector further comprises a breakaway mechanism configured to selectively disconnect the patient cable from the body upon application of a force exceeding a predetermined force, wherein the predetermined force is less than the engagement force. 2 . The electrical stimulation system of claim 1 , wherein the lead connector comprises a rotating element engageable with the coiled lead, the rotating element configured to adjust the engagement force. 3 . The electrical stimulation system of claim 2 , wherein the rotating element comprises at least of a knob, dial, spool or post. 4 . The electrical stimulation system of claim 1 further comprising an electrical stimulator operatively attached with the patient cable, wherein the electrical stimulator is configured to apply electrical stimulation. 5 . The electrical stimulation system of claim 1 , further comprising a contact element comprising micro-structured barbs configured to engage and hold the coiled lead. 6 . The electrical stimulation system of claim 1 , wherein the breakaway mechanism comprises a neodymium magnet. 7 . The electrical stimulation system of claim 1 , wherein the breakaway mechanism comprises at least one of: a rare earth magnet, a samarium cobalt magnet, an alnico magnet, a ceramic magnet, and a ferrite magnet. 8 . The electrical stimulation system of claim 1 , wherein a spring-loaded, conductive pin carried on the patient cable engages a mating element formed on the lead body, said engagement of the mating element with the patient cable creating an electrical connection between the coiled lead and the patient cable by way of a contact element. 9 . The electrical stimulation system of claim 1 , wherein a spring-loaded, conductive pin formed on an exterior facing of the lead body engages a mating element formed on the patient cable, the engagement of the pin with the patient cable creating an electrical connection between the coiled lead and the patient cable by way of a contact element. 10 . The electrical stimulation system of claim 1 , wherein the lead body includes a connection point for attachment to the patient cable. 11 . The electrical stimulation system of claim 10 , wherein the connection point has an inverted Y shape. 12 . The electrical stimulation system of claim 10 , wherein the connection point has a plurality of movable arms. 13 . The electrical stimulation system of claim 10 , wherein the connection point has a biasing fitting. 14 . The electrical stimulation system of claim 1 , wherein the lead body includes a releasable force fitting comprising a groove or indentation. 15 . The electrical system of claim 1 , wherein the lead connector is bifurcated into multiple divisions to receive a plurality of coiled leads. 16 . The electrical system of claim 15 further comprising a plurality of coiled leads. 17 . The electrical system of claim 1 , wherein the lead connector comprises a lead storage mechanism, wherein the lead storage mechanism reduces a length of the coiled lead extending from the lead connector. 18 . The electrical system of claim 17 , wherein the lead storage mechanism comprises a spool. 19 . An electrical stimulation system comprising: a lead connector comprising a funnel shaped end; a coiled lead inserted into said funnel shaped end, wherein the lead connector establishes an electrical connection with the coiled lead and wherein the coiled lead has an engagement force when inserted into a body of a patient; a patient cable selectively attachable to the body, wherein the lead connector establishes an electrical connection with the patient cable; an electrical stimulator operatively attached with the patient cable, wherein the electrical stimulator is configured to apply electrical stimulation; and wherein the lead connector further comprises a breakaway mechanism configured to selectively disconnect the patient cable from the body upon application of a force exceeding a predetermined force, wherein the predetermined force is less than the engagement force. 20 . The electrical system of claim 19 , wherein the lead connector is bifurcated into multiple divisions to receive a plurality of coiled leads.