Implantable medical electrical lead construction and associated implant systems

The invention claimed is: 1. A temporary medical electrical lead comprising: a connector pin; and a single conductor coil, the coil extending from a proximal portion to a distal portion and having a length, the coil being close-wound along the length thereof, the proximal portion of the coil coupled to the connector pin and a distal portion of the coil extending to a tapered distal-most tip of the lead, the distal portion of the coil defining an inner surface of the lead, the inner surface surrounding an elongate lumen of the lead, the connector pin including an elongate bore that defines a proximal-most portion of the elongate lumen and a proximal opening thereto at a proximal end of the connector pin; no turns of the coil distal portion are mechanically coupled together; and the coil distal portion translates a force of no greater than 0.1 lb f (0.4 N) when strained 400%. 2. The lead of claim 1 , wherein: the single conductor coil distal portion includes an insulated proximal segment and an uninsulated distal segment, the insulated segment extending from the coil proximal portion to the uninsulated segment, and the uninsulated segment extending from the insulated segment to the distal-most tip of the lead; and the single conductor coil comprises a single cable, the cable comprising a plurality of conductive filaments and an insulative layer, the insulative layer extending around the conductive filaments along the insulated segment of the coil distal portion, but not along the uninsulated segment of the coil distal portion, and the insulative layer defining the inner surface and an outer surface of the lead along the insulated segment of the coil distal portion only. 3. The lead of claim 2 , wherein the plurality of conductive filaments of the cable are arranged in a 1×19 configuration, concentric lay. 4. The lead of claim 2 , wherein: the plurality of conductive filaments of the cable are arranged in a 1×19 configuration, concentric lay, each filament having a diameter of about 0.0012 inch (30.5 micrometers); and the insulative layer of the cable defines a maximum outer diameter of the lead along the coil distal portion, the maximum outer diameter being greater than 0.032 inch (813 micrometers) and less than 0.041 inch (1040 micrometers). 5. The lead of claim 3 , further comprising a marker formed in the insulative layer of the cable, and wherein the insulative layer has a white appearance except for the marker. 6. The lead of claim 3 , wherein each conductive filament of the cable has a distal-most end at the distal-most tip of the lead, the conductive filament distal-most ends being free of any mechanical coupling. 7. The lead of claim 1 , wherein the coil distal portion translates a force of less than 0.1 lb f (0.4N) when strained 400%. 8. A system for providing temporary medical electrical stimulation, the system comprising the lead of claim 1 , an introducer needle, a stylet, and a grip tool, and wherein: the introducer needle has a lumen sized to receive passage of an entire length of the lead therethrough, from a proximal opening of the needle lumen to a distal opening of the needle lumen, the entire length of the lead being defined from the proximal end of the connector pin to the distal-most tip of the lead, the stylet includes a proximal length and a distal length, the distal length having an outer diameter sized to fit in sliding engagement within the elongate lumen of the lead, and the proximal length having an outer diameter sized to abut the proximal end of the connector pin of the lead, when the distal length is fitted within the lead lumen; and the grip tool being configured to engage with the lead and the stylet to temporarily secure the stylet to the lead when the distal length of the stylet is fitted within the elongate lumen of the lead, and when the proximal length of the stylet abuts the connector pin of the lead. 9. The system of claim 8 , wherein the grip tool extends over a length from a proximal end thereof to a distal end thereof, and the grip tool further comprising: a distal portion extending from the distal end of the tool; a proximal portion extending between the distal portion of the tool and the proximal end of the tool; an elongate channel extending along the length of the tool from the proximal end to the distal end thereof, the channel being sized to receive in gripping engagement the lead, within the distal portion of the tool, and the proximal length of the stylet within the proximal portion of the tool, when the distal length of the stylet is fitted within the elongate lumen of the lead and the proximal length of the stylet abuts the connector pin of the lead; and an elongate slot extending along the channel, the slot providing access to the channel for insertion and withdrawal of the lead into and out from the distal portion of the tool, and insertion and withdrawal of the proximal length of the stylet into and out from the proximal portion of the tool. 10. The system of claim 9 , wherein the grip tool further comprises an intermediate portion extending between the distal and proximal portions thereof, the intermediate portion configured with a window to expose the lead connector pin when the tool temporarily secures the stylet to the lead. 11. A method for assembling a system, the system comprising the lead of claim 1 and a stylet, the stylet being configured to fit in sliding engagement within the elongate lumen of the lead; and the method comprising: inserting a distal length of the stylet into the elongate lumen of the lead from the proximal opening thereof, until the distal length of the stylet abuts the distal-most tip of the lead; and securing the lead to the inserted stylet, the securing comprising fitting a distal portion of a grip tool around the lead connector pin and a proximal portion of the grip tool around a proximal length of the inserted stylet, so that the proximal end of the connector pin abuts the proximal length of the inserted stylet. 12. The method of claim 11 , wherein securing the lead to the inserted stylet further comprises locating an intermediate portion of the grip tool in proximity to the abutment of the lead connector pin proximal end with the stylet proximal length, the intermediate portion of the grip tool extending between the distal and proximal portions of the grip tool and being configured to expose the lead connector pin. 13. A method of implanting the lead included in the system according to claim 11 , the method comprising: passing the distal-most tip of the lead into a lumen of a positioned introducer needle through a proximal opening thereof, the needle being positioned in a patient's body with a distal opening of the needle lumen located in proximity to a sacral foramen; advancing the lead through the needle lumen until the distal-most tip of the lead exits the distal opening of the needle lumen and passes through the foramen so that the distal-most tip is located in proximity to a sacral nerve, the advancing comprising gripping the tool that secures the lead to the inserted stylet; removing the grip tool from around the advanced lead and inserted stylet; and removing the introducer needle from around the advanced lead, after removing the grip tool, the removing of the needle comprising applying a push force to the lead with the inserted stylet while retracting the needle from the patient's body, the push force being transferred through the abutment of the proximal length of the stylet with the proximal end of the lead connector pin. 14. A method of implanting the lead included in the system according to claim 8 , the method compri