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An electrical lead includes an elongate body having a proximal end portion and a distal end portion, a first electrode disposed adjacent and joined to the distal end portion of the elongate body. Current flow within the first electrode is limited when a predetermined condition occurs, such as the ge

An electrical lead includes an elongate body having a proximal end portion and a distal end portion, a first electrode disposed adjacent and joined to the distal end portion of the elongate body. Current flow within the first electrode is limited when a predetermined condition occurs, such as the generation of an electromagnetic field having a predetermined frequency range. The medical electrical lead may further comprise one or more second electrodes disposed adjacent the first electrode and joined to the elongate body to shunt current to body tissue when the predetermined condition occurs.

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1. An electrical lead, comprising:an elongate body having a proximal end portion and a distal end portion; a first electrode disposed near the distal end portion of the elongate body; a first conductor electrically coupled to the first electrode; a second electrode disposed adjacent the elongate bod

1. An electrical lead, comprising:an elongate body having a proximal end portion and a distal end portion; a first electrode disposed near the distal end portion of the elongate body; a first conductor electrically coupled to the first electrode; a second electrode disposed adjacent the elongate body; a capacitive device electrically coupled to the first conductor and the second electrode; and a component coupled to the first conductor to selectively limit current through the first electrode. 2. The lead of claim 1, wherein the component is an inductor.3. The lead of claim 1, wherein the component is a switch.4. The lead of claim 3, wherein the component is coupled to a sensor capable of detecting an electromagnetic field.5. The lead of claim 4, wherein the sensor is capable of detecting an electromagnetic field in a predetermined frequency range.6. The lead of claim 5, wherein the switch includes active circuit components.7. The lead of claim 5, wherein the switch includes Field Effect Transistors (FETs).8. The lead of claim 5, wherein the switch includes at least one Micro-Electrical-Mechanical System (MEMs) switch.9. The lead according to claim 1, further comprising a second conductor extending between the proximal end portion of the elongate body and the second electrode end being electrically coupled to the second electrode.10. The lead according to claim 1, further comprising:a third electrode disposed adjacent the second electrode and joined to the elongate body; and a second conductor extending between the proximal end portion of the elongate body and the third electrode and being electrically coupled to the third electrode. 11. The lead according to claim 1, wherein the capacitive device further comprises a discoidal capacitor having a central contact and a peripheral contact;the first conductor is electrically coupled with the central contact; and the second electrode is electrically coupled with the peripheral contact. 12. The lead according to claim 1, wherein:the first electrode and the second electrode are capable of being electrically coupled with body tissue; the first conductor is capable of transmitting an electrical current; and the capacitive device has an electrical impedance substantially less than electrical impedance of the body tissue at signal frequencies greater than those used to sense biological signals or deliver electrical stimulation to the body tissue. 13. The lead according to claim 1, wherein:the first electrode and the second electrode are capable of being electrically coupled with body tissue; the first conductor is capable of transmitting an electrical current; and the capacitive device has an electrical impedance substantially greater than an electrical impedance of the body tissue at signal frequencies used to sense biological signals or deliver electrical stimulation to the body tissue. 14. The lead according to claim 1, wherein an area of the second electrode is at least three times an area of the first electrode.15. The lead according to claim 1, wherein the capacitive device is capable of allowing at least a portion of a current, induced in the first conductor by a field, to be routed to the second electrode.16. A medical electrical lead for an implantable medical device having a sensor to sense a predetermined physiological condition, comprising:an elongate body; an electrode; a component coupled to the elongate body to limit the flow of current through the electrode upon detection of the predetermined physiological condition. 17. The lead of claim 16, wherein the sensor is adapted to sense an electromagnetic field.18. The lead of claim 17, wherein the component is configured to limit the flow of current through the electrode upon detection of an electromagnetic field in a predetermined frequency range.19. The lead according to claim 18, wherein the component is an active circuit component.20. The lead according to claim 19, wherein the component is a field effect transistor.21. The lead according to claim 18, wherein the component is a Micro Electrical-Mechanical system (MEMs) switch.22. The lead according to claim 18, and further comprising a shunting assembly coupled to the elongate body to dissipate heat when the lead is exposed to the electromagnetic field in the predetermined frequency range.23. The lead according to claim 22, wherein the shunting assembly comprises a capacitive device.24. The lead according to claim 23, wherein the capacitive device is a discoidal capacitor having a central contact and a peripheral contact, wherein the electrode is electrically coupled with the peripheral contact, and further comprising a conductor electrically coupled with the central contact.25. A method of utilizing a medical electrical lead, wherein the lead includes an elongate body and an electrode coupled to the elongate body, comprising the steps of:a.) providing a primary current path within the elongate body to the electrode; b.) limiting current in the primary current path when a predetermined condition is present within the medical electrical lead; c.) providing at least one secondary current path to carry current when the predetermined condition is sensed. 26. The method of claim 25, wherein the predetermined condition of step b.) is the presence in the primary current path of a current having a frequency within a predetermined frequency range.27. The method of claim 26, wherein step b.) includes limiting current via a inductor placed within the primary current path.28. The method of claim 25, wherein step b.) comprises sensing an electromagnetic field, and limiting current when the sensed electromagnetic field has a magnetic field strength within a predetermined range.29. The method of claim 28, wherein step b.) comprises limiting current by opening a switch.30. The method of claim 29, wherein step b.) comprises opening a MEMs switch.31. The method of claim 28, wherein step b.) comprises using an active circuit component to limit current flow.32. The method of claim 31, wherein step b.) comprises using an FET to limit current flow.33. The method of claim 25, and further including:d.) routing current from the primary current path to the secondary current path when the predetermined condition is present. 34. The method of claim 33, wherein step d.) includes providing a capacitor between the primary current path and the secondary current path to shunt current having a frequency within a predetermined frequency range there between.